Your search keyword '"van Diemen, CC"' showing total 95 results

1. A cross-omics integrative study of metabolic signatures of chronic obstructive pulmonary disease

Author

Prokic, Ivana, Lahousse, Lies, Boersma - de Vries, M, Liu, Jun, Kalaoja, M, Vonk, JM, Plaat, DAD, van Diemen, CC, van der Spek, Ashley, Zhernakova, A, Fu, JY, Ghanbari, Mohsen, Ala-Korpela, M, Kettunen, J, Havulinna, AS, Perola, M, Salomaa, V, Lind, L, Arnlov, J, Stricker, Bruno, Brusselle, Guy, Boezen, HM, Duijn, Cornelia, Amin, Najaf, Prokic, Ivana, Lahousse, Lies, Boersma - de Vries, M, Liu, Jun, Kalaoja, M, Vonk, JM, Plaat, DAD, van Diemen, CC, van der Spek, Ashley, Zhernakova, A, Fu, JY, Ghanbari, Mohsen, Ala-Korpela, M, Kettunen, J, Havulinna, AS, Perola, M, Salomaa, V, Lind, L, Arnlov, J, Stricker, Bruno, Brusselle, Guy, Boezen, HM, Duijn, Cornelia, and Amin, Najaf

Published

2020

2. Limited overlap in significant hits between genome-wide association studies on two airflow obstruction definitions in the same population

Author

Plaat, DAD, Vonk, JM, Lahousse, Lies, Jong, K, Faiz, A, Prokic, Ivana, Amin, Najaf, van Diemen, CC, Brusselle, Guy, Bosse, Y, Brandsma, CA, Hao, K, Pare, PD, Duijn, CM, Postma, DS, Boezen, HM, Plaat, DAD, Vonk, JM, Lahousse, Lies, Jong, K, Faiz, A, Prokic, Ivana, Amin, Najaf, van Diemen, CC, Brusselle, Guy, Bosse, Y, Brandsma, CA, Hao, K, Pare, PD, Duijn, CM, Postma, DS, and Boezen, HM

Published

2019

3. Limited overlap in significant hits between genome-wide association studies on two airflow obstruction definitions in the same population

Author

Van Der Plaat, DA, Vonk, JM, Lahousse, L, De Jong, K, Faiz, A, Nedeljkovic, I, Amin, N, Van Diemen, CC, Brusselle, GG, Bossé, Y, Brandsma, CA, Hao, K, Paré, PD, Van Duijn, CM, Postma, DS, Boezen, HM, Van Der Plaat, DA, Vonk, JM, Lahousse, L, De Jong, K, Faiz, A, Nedeljkovic, I, Amin, N, Van Diemen, CC, Brusselle, GG, Bossé, Y, Brandsma, CA, Hao, K, Paré, PD, Van Duijn, CM, Postma, DS, and Boezen, HM

Abstract

© 2019 The Author(s). Background: Airflow obstruction is a hallmark of chronic obstructive pulmonary disease (COPD), and is defined as either the ratio between forced expiratory volume in one second and forced vital capacity (FEV1/FVC) < 70% or < lower limit of normal (LLN). This study aimed to assess the overlap between genome-wide association studies (GWAS) on airflow obstruction using these two definitions in the same population stratified by smoking. Methods: GWASes were performed in the LifeLines Cohort Study for both airflow obstruction definitions in never-smokers (NS = 5071) and ever-smokers (ES = 4855). The FEV1/FVC < 70% models were adjusted for sex, age, and height; FEV1/FVC < LLN models were not adjusted. Ever-smokers models were additionally adjusted for pack-years and current-smoking. The overlap in significantly associated SNPs between the two definitions and never/ever-smokers was assessed using several p-value thresholds. To quantify the agreement, the Pearson correlation coefficient was calculated between the p-values and ORs. Replication was performed in the Vlagtwedde-Vlaardingen study (NS = 432, ES = 823). The overlapping SNPs with p < 10- 4 were validated in the Vlagtwedde-Vlaardingen and Rotterdam Study cohorts (NS = 1966, ES = 3134) and analysed for expression quantitative trait loci (eQTL) in lung tissue (n = 1087). Results: In the LifeLines cohort, 96% and 93% of the never- and ever-smokers were classified concordantly based on the two definitions. 26 and 29% of the investigated SNPs were overlapping at p < 0.05 in never- and ever-smokers, respectively. At p < 10- 4 the overlap was 4% and 6% respectively, which could be change findings as shown by simulation studies. The effect estimates of the SNPs of the two definitions correlated strongly, but the p-values showed more variation and correlated only moderately. Similar observations were made in the Vlagtwedde-Vlaardingen study. Two overlapping SNPs in never-smokers (NFYC and FABP7) had the

Published

2019

4. Genetic variation in TIMP1 but not MMPs predict excess FEV1 decline in two general population-based cohorts

Author

Blokstra A, Siedlinski M, Postma DS, van Diemen CC, Smit HA, and Boezen HM

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Abstract Background An imbalance in Matrix MetalloProteases (MMPs) and Tissue Inhibitors of MMPs (TIMPs) contributes to Chronic Obstructive Pulmonary Disease (COPD) development. Longitudinal studies investigating Single Nucleotide Polymorphisms (SNPs) in MMPs and TIMPs with respect to COPD development and lung function decline in the general population are lacking. Methods We genotyped SNPs in MMP1 (G-1607GG), MMP2 (-1306 C/T), MMP9 (3 tagging SNPs), MMP12 (A-82G and Asn357Ser) and TIMP1 (Phe124Phe and Ile158Ile) in 1390 Caucasians with multiple FEV1 measurements from a prospective cohort study in the general population. FEV1 decline was analyzed using linear mixed effect models adjusted for confounders. Analyses of the X-chromosomal TIMP1 gene were stratified according to sex. All significant associations were repeated in an independent general population cohort (n = 1152). Results MMP2 -1306 TT genotype carriers had excess FEV1 decline (-4.0 ml/yr, p = 0.03) compared to wild type carriers. TIMP1 Ile158Ile predicted significant excess FEV1 decline in both males and females. TIMP1 Phe124Phe predicted significant excess FEV1 decline in males only, which was replicated (p = 0.10) in the second cohort. The MMP2 and TIMP1 Ile158Ile associations were not replicated. Although power was limited, we did not find associations with COPD development. Conclusions We for the first time show that TIMP1 Phe124Phe contributes to excess FEV1 decline in two independent prospective cohorts, albeit not quite reaching conventional statistical significance in the replication cohort. SNPs in MMPs evidently do not contribute to FEV1 decline in the general population.

Published

2011

5. From blood to lung tissue: effect of cigarette smoke on DNA methylation and lung function

Author

Vries, M, van der Plaat, D A, Prokic, Ivana, Verkaik-Schakel, RN, Kooistra, W, Amin, Najaf, Duijn, Cornelia, Brandsma, CA, van Diemen, CC, Vonk, JM, Boezen, HM, Vries, M, van der Plaat, D A, Prokic, Ivana, Verkaik-Schakel, RN, Kooistra, W, Amin, Najaf, Duijn, Cornelia, Brandsma, CA, van Diemen, CC, Vonk, JM, and Boezen, HM

Published

2018

6. Occupational exposure to pesticides is associated with differential DNA methylation

Author

van der Plaat, D A, Jong, K, Vries, M, van Diemen, CC, Prokic, Ivana, Amin, Najaf, Kromhout, H, Vermeulen, R, Postma, DS, Duijn, CM, Boezen, HM, Vonk, JM, van der Plaat, D A, Jong, K, Vries, M, van Diemen, CC, Prokic, Ivana, Amin, Najaf, Kromhout, H, Vermeulen, R, Postma, DS, Duijn, CM, Boezen, HM, and Vonk, JM

Published

2018

7. A Genome-Wide Linkage Study for Chronic Obstructive Pulmonary Disease in a Dutch Genetic Isolate Identifies Novel Rare Candidate Variants

Author

Prokic, Ivana, Terzikhan, Natalie, Vonk, JM, van der Plaat, D A, Lahousse, Lies, van Diemen, CC, Hobbs, BD, Qiao, D, Cho, MH, Brusselle, Guy, Postma, DS, Boezen, HM, Duijn, Cornelia, Amin, Najaf, Prokic, Ivana, Terzikhan, Natalie, Vonk, JM, van der Plaat, D A, Lahousse, Lies, van Diemen, CC, Hobbs, BD, Qiao, D, Cho, MH, Brusselle, Guy, Postma, DS, Boezen, HM, Duijn, Cornelia, and Amin, Najaf

Published

2018

8. COPD GWAS variant at 19q13.2 in relation with DNA methylation and gene expression

Author

Prokic, Ivana, Lahousse, Lies, Carnero Montoro, Elena, Faiz, A, Vonk, JM, Jong, K, van der Plaat, D A, van Diemen, CC, Berge, M, Obeidat, M, Bosse, Y, Nickle, DC, Uitterlinden, André, van Meurs, Joyce, Stricker, Bruno, Brusselle, Guy, Postma, DS, Boezen, HM, Duijn, Cornelia, Amin, Najaf, Prokic, Ivana, Lahousse, Lies, Carnero Montoro, Elena, Faiz, A, Vonk, JM, Jong, K, van der Plaat, D A, van Diemen, CC, Berge, M, Obeidat, M, Bosse, Y, Nickle, DC, Uitterlinden, André, van Meurs, Joyce, Stricker, Bruno, Brusselle, Guy, Postma, DS, Boezen, HM, Duijn, Cornelia, and Amin, Najaf

Published

2018

9. Long-term Air Pollution Exposure, Genome-wide DNA Methylation and Lung Function in the LifeLines Cohort Study

Author

Lichtenfels, A, van der Plaat, D A, Jong, K, van Diemen, CC, Postma, DS, Prokic, Ivana, Duijn, Cornelia, Amin, Najaf, la Bastide-van Gemert, S, Vries, M, Ward-Caviness, CK, De Wolf, K, Waldenberger, M, Peters, A, Stolk, RP, Brunekreef, B, Boezen, HM, Vonk, JM, Lichtenfels, A, van der Plaat, D A, Jong, K, van Diemen, CC, Postma, DS, Prokic, Ivana, Duijn, Cornelia, Amin, Najaf, la Bastide-van Gemert, S, Vries, M, Ward-Caviness, CK, De Wolf, K, Waldenberger, M, Peters, A, Stolk, RP, Brunekreef, B, Boezen, HM, and Vonk, JM

Published

2018

10. COPD GWAS variant at 19q13.2 in relation with DNA methylation and gene expression

Author

Nedeljkovic, I, Lahousse, L, Carnero-Montoro, E, Faiz, A, Vonk, JM, de Jong, K, van der Plaat, DA, van Diemen, CC, van den Berge, M, Obeidat, M, Bossé, Y, Nickle, DC, Uitterlinden, AG, van Meurs, JBJ, Stricker, BHC, Brusselle, GG, Postma, DS, Boezen, HM, van Duijn, CM, Amin, N, Nedeljkovic, I, Lahousse, L, Carnero-Montoro, E, Faiz, A, Vonk, JM, de Jong, K, van der Plaat, DA, van Diemen, CC, van den Berge, M, Obeidat, M, Bossé, Y, Nickle, DC, Uitterlinden, AG, van Meurs, JBJ, Stricker, BHC, Brusselle, GG, Postma, DS, Boezen, HM, van Duijn, CM, and Amin, N

Abstract

© The Author 2017. Chronic obstructive pulmonary disease (COPD) is among the major health burdens in adults. While cigarette smoking is the leading risk factor, a growing number of genetic variations have been discovered to influence disease susceptibility. Epigenetic modifications may mediate the response of the genome to smoking and regulate gene expression. Chromosome 19q13.2 region is associated with both smoking and COPD, yet its functional role is unclear. Our study aimed to determine whether rs7937 (RAB4B, EGLN2), a top genetic variant in 19q13.2 region identified in genome-wide association studies of COPD, is associated with differential DNA methylation in blood (N=1490) and gene expression in blood (N=721) and lungs (N=1087). We combined genetic and epigenetic data from the Rotterdam Study (RS) to perform the epigenome-wide association analysis of rs7937. Further, we used genetic and transcriptomic data from blood (RS) and from lung tissue (Lung expression quantitative trait loci mapping study), to perform the transcriptome-wide association study of rs7937. Rs7937 was significantly (FDR < 0.05) and consistently associated with differential DNA methylation in blood at 4 CpG sites in cis, independent of smoking. One methylation site (cg11298343-EGLN2) was also associated with COPD (P=0.001). Additionally, rs7937 was associated with gene expression levels in blood in cis (EGLN2), 42% mediated through cg11298343, and in lung tissue, in cis and trans (NUMBL, EGLN2, DNMT3A, LOC101929709 and PAK2). Our results suggest that changes of DNA methylation and gene expression may be intermediate steps between genetic variants and COPD, but further causal studies in lung tissue should confirm this hypothesis.

Published

2018

11. Understanding the role of the chromosome 15q25.1 in COPD through epigenetics and transcriptomics

Author

Nedeljkovic, I, Carnero-Montoro, E, Lahousse, L, Van Der Plaat, DA, De Jong, K, Vonk, JM, Van Diemen, CC, Faiz, A, Van Den Berge, M, Obeidat, M, Bossé, Y, Nickle, DC, Consortium, B, Uitterlinden, AG, Van Meurs, JJB, Stricker, BCH, Brusselle, GG, Postma, DS, Boezen, HM, Van Duijn, CM, Amin, N, Nedeljkovic, I, Carnero-Montoro, E, Lahousse, L, Van Der Plaat, DA, De Jong, K, Vonk, JM, Van Diemen, CC, Faiz, A, Van Den Berge, M, Obeidat, M, Bossé, Y, Nickle, DC, Consortium, B, Uitterlinden, AG, Van Meurs, JJB, Stricker, BCH, Brusselle, GG, Postma, DS, Boezen, HM, Van Duijn, CM, and Amin, N

Abstract

© 2018 European Society of Human Genetics. Chronic obstructive pulmonary disease (COPD) is a major health burden in adults and cigarette smoking is considered the most important environmental risk factor of COPD. Chromosome 15q25.1 locus is associated with both COPD and smoking. Our study aims at understanding the mechanism underlying the association of chromosome 15q25.1 with COPD through epigenetic and transcriptional variation in a population-based setting. To assess if COPD-associated variants in 15q25.1 are methylation quantitative trait loci, epigenome-wide association analysis of four genetic variants, previously associated with COPD (P < 5 × 10-8) in the 15q25.1 locus (rs12914385:C>T-CHRNA3, rs8034191:T>C-HYKK, rs13180:C>T-IREB2 and rs8042238:C>T-IREB2), was performed in the Rotterdam study (n = 1489). All four variants were significantly associated (P < 1.4 × 10-6) with blood DNA methylation of IREB2, CHRNA3 and PSMA4, of which two, including IREB2 and PSMA4, were also differentially methylated in COPD cases and controls (P < 0.04). Further additive and multiplicative effects of smoking were evaluated and no significant effect was observed. To evaluate if these four genetic variants are expression quantitative trait loci, transcriptome-wide association analysis was performed in 1087 lung samples. All four variants were also significantly associated with differential expression of the IREB2 3'UTR in lung tissues (P < 5.4 × 10-95). We conclude that regulatory mechanisms affecting the expression of IREB2 gene, such as DNA methylation, may explain the association between genetic variants in chromosome 15q25.1 and COPD, largely independent of smoking.

Published

2018

12. Genome-wide association study on the FEV1/FVC ratio in never-smokers identifies HHIP and FAM13A.

Author

van der Plaat, DA, de Jong, K, Lahousse, L, Faiz, A, Vonk, JM, van Diemen, CC, Nedeljkovic, I, Amin, N, Brusselle, GG, Hofman, A, Brandsma, C-A, Bossé, Y, Sin, DD, Nickle, DC, van Duijn, CM, Postma, DS, Boezen, HM, van der Plaat, DA, de Jong, K, Lahousse, L, Faiz, A, Vonk, JM, van Diemen, CC, Nedeljkovic, I, Amin, N, Brusselle, GG, Hofman, A, Brandsma, C-A, Bossé, Y, Sin, DD, Nickle, DC, van Duijn, CM, Postma, DS, and Boezen, HM

Abstract

BACKGROUND: Although a striking proportion (25% to 45%) of patients with chronic obstructive pulmonary disease are never-smokers, most genetic susceptibility studies have not focused on this group exclusively. OBJECTIVE: The aim of this study was to identify common genetic variants associated with FEV1 and its ratio to forced vital capacity (FVC) in never-smokers. METHODS: Genome-wide association studies were performed in 5070 never-smokers of the identification cohort LifeLines, and results (P < 10-5) were verified by using a meta-analysis of the Vlagtwedde-Vlaardingen study and the Rotterdam Study I-III (total n = 1966). Furthermore, we aimed to assess the effects of the replicated variants in more detail by performing genetic risk score, expression quantitative trait loci, and variant*ever-smoking interaction analyses. RESULTS: We identified associations between the FEV1/FVC ratio and 5 common genetic variants in the identification cohort, and 2 of these associations were replicated. The 2 variants annotated to the genes hedgehog interacting protein (HHIP) and family with sequence similarity 13 member A (FAM13A) were shown to have an additive effect on FEV1/FVC levels in the genetic risk score analysis; were associated with gene expression of HHIP and FAM13A in lung tissue, respectively; and were genome-wide significant in a meta-analysis including both identification and 4 verification cohorts (P < 2.19 × 10-7). Finally, we did not identify significant interactions between the variants and ever smoking. Results of the FEV1 identification analysis were not replicated. CONCLUSION: The genes HHIP and FAM13A confer a risk for airway obstruction in general that is not driven exclusively by cigarette smoking, which is the main risk factor for chronic obstructive pulmonary disease.

Published

2017

13. Genome-wide association study on the FEV1/FVC ratio in never-smokers identifies HHIP and FAM13A

Author

van der Plaat, DA, de Jong, K, Lahousse, L, Faiz, A, Vonk, JM, van Diemen, CC, Nedeljkovic, I, Amin, N, Brusselle, GG, Hofman, A, Brandsma, C-A, Bossé, Y, Sin, DD, Nickle, DC, van Duijn, CM, Postma, DS, and Boezen, HM

Subjects

Adult, Male, Risk, Allergy, Adolescent, Genotype, Quantitative Trait Loci, Vital Capacity, Polymorphism, Single Nucleotide, Cohort Studies, Pulmonary Disease, Chronic Obstructive, Young Adult, Forced Expiratory Volume, Humans, Genetic Predisposition to Disease, Lung, Aged, Aged, 80 and over, Membrane Glycoproteins, GTPase-Activating Proteins, Smoking, Middle Aged, 1107 Immunology, Spirometry, Female, Carrier Proteins, Genome-Wide Association Study

Abstract

BACKGROUND: Although a striking proportion (25% to 45%) of patients with chronic obstructive pulmonary disease are never-smokers, most genetic susceptibility studies have not focused on this group exclusively. OBJECTIVE: The aim of this study was to identify common genetic variants associated with FEV1 and its ratio to forced vital capacity (FVC) in never-smokers. METHODS: Genome-wide association studies were performed in 5070 never-smokers of the identification cohort LifeLines, and results (P

Published

2016

14. The Well-Known Gene HHIP and Novel Gene MECR Are Implicated in Small Airway Obstruction.

Author

van der Plaat, DA, de Jong, K, Lahousse, L, Faiz, A, Vonk, JM, van Diemen, CC, Nedeljkovic, I, Amin, N, Obeidat, M, van Duijn, CM, Boezen, HM, Postma, DS, van der Plaat, DA, de Jong, K, Lahousse, L, Faiz, A, Vonk, JM, van Diemen, CC, Nedeljkovic, I, Amin, N, Obeidat, M, van Duijn, CM, Boezen, HM, and Postma, DS

Published

2016

15. Pooled Resequencing of 122 Ulcerative Colitis Genes in a Large Dutch Cohort Suggests Population-Specific Associations of Rare Variants in MUC2

Author

Visschedijk, MC, Alberts, R, Mucha, S, Deelen, P, de Jong, DJ, Pierik, M, Spekhorst, LM, Imhann, F, de Jong, AE, van der Woude, C.J., van Bodegraven, AA, Oldenburg, B, Lowenberg, M, Dijkstra, G, Ellinghaus, D, Schreiber, S, Wijmenga, C, Rivas, MA, Franke, A, van Diemen, CC, Weersma, RK, Visschedijk, MC, Alberts, R, Mucha, S, Deelen, P, de Jong, DJ, Pierik, M, Spekhorst, LM, Imhann, F, de Jong, AE, van der Woude, C.J., van Bodegraven, AA, Oldenburg, B, Lowenberg, M, Dijkstra, G, Ellinghaus, D, Schreiber, S, Wijmenga, C, Rivas, MA, Franke, A, van Diemen, CC, and Weersma, RK

Abstract

Genome-wide association studies have revealed several common genetic risk variants for ulcerative colitis (UC). However, little is known about the contribution of rare, large effect genetic variants to UC susceptibility. In this study, we performed a deep targeted re-sequencing of 122 genes in Dutch UC patients in order to investigate the contribution of rare variants to the genetic susceptibility to UC. The selection of genes consists of 111 established human UC susceptibility genes and 11 genes that lead to spontaneous colitis when knocked-out in mice. In addition, we sequenced the promoter regions of 45 genes where known variants exert cis-eQTL-effects. Targeted pooled re-sequencing was performed on DNA of 790 Dutch UC cases. The Genome of the Netherlands project provided sequence data of 500 healthy controls. After quality control and prioritization based on allele frequency and pathogenicity probability, follow-up genotyping of 171 rare variants was performed on 1021 Dutch UC cases and 1166 Dutch controls. Single-variant association and gene-based analyses identified an association of rare variants in the MUC2 gene with UC. The associated variants in the Dutch population could not be replicated in a German replication cohort (1026 UC cases, 3532 controls). In conclusion, this study has identified a putative role for MUC2 on UC susceptibility in the Dutch population and suggests a population-specific contribution of rare variants to UC.

Published

2016

16. Susceptibility to Chronic Mucus Hypersecretion, a Genome Wide Association Study

Author

Dijkstra, Akkelies E., Smolonska, J, Van Den Berge, M, Wijmenga, C, Zanen, P, Luinge, MA, Platteel, M, Lammers, JW, Dahlback, M, Tosh, K, Hiemstra, PS, Sterk, PJ, Spira, A, Vestbo, J, Nordestgaard, BG, Benn, M, Nielsen, SF, Dahl, M, Verschuren, WM, Picavet, HSJ, Smit, HA, Owsijewitsch, M, Kauczor, HU, De Koning, HJ, Nizankowska-Mogilnicka, E, Mejza, F, Nastalek, P, Van Diemen, CC, Cho, MH, Silverman, EK, Crapo, JD, Beaty, TH, Lomas, DA, Bakke, Per, Gulsvik, Amund, Bosse, Y, Obeidat, MA, Loth, DW, Lahousse, L, Rivadeneira, F, Uitterlinden, AG, Hofman, A, Stricker, BH, Brusselle, GG, Van Duijn, CM, Brouwer, U, Koppelman, GH, Vonk, JM, Nawijn, MC, Groen, HJM, Timens, W, Boezen, HM, Postma, DS, Alizadeh, BZ, De Boer, RA, Bruinenberg, M, Franke, L, Van Der Harst, P, Hillege, HL, Van Der Klauw, MM, Navis, G, Ormel, J, Rosmalen, J, Slaets, JP, Snieder, H, Stolk, RP, Wolffenbuttel, B, Amsterdam institute for Infection and Immunity, Pulmonology, Clinical Chemistry, Public Health, Otorhinolaryngology and Head and Neck Surgery, Epidemiology, Internal Medicine, Groningen Research Institute for Asthma and COPD (GRIAC), Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI), Life Course Epidemiology (LCE), Damage and Repair in Cancer Development and Cancer Treatment (DARE), and Guided Treatment in Optimal Selected Cancer Patients (GUTS)

Subjects

CHROMATIN, Male, Chronic bronchitis, Pulmonology, Epidemiology, OBSTRUCTIVE PULMONARY-DISEASE CHRONIC-BRONCHITIS GENETIC EPIDEMIOLOGY GENERAL-POPULATION BINDING-PROTEIN RISK-FACTORS COPD CHROMATIN SATB1 EXPRESSION, lcsh:Medicine, Genome-wide association study, Lung/metabolism, Mucus/metabolism, Drug Addiction, Matrix Attachment Region Binding Proteins/genetics, Recreational Drug Addiction, Cohort Studies, Pulmonary Disease, Chronic Obstructive, Medicine and Health Sciences, Psychology, Clinical Epidemiology, lcsh:Science, Lung, Cells, Cultured, GENETIC EPIDEMIOLOGY, GENERAL-POPULATION, Aged, 80 and over, education.field_of_study, Multidisciplinary, Medical sciences: 700::Basic medical, dental and veterinary sciences: 710::Medical genetics: 714 [VDP], Genomics, respiratory system, Middle Aged, 3. Good health, Functional Genomics, BINDING-PROTEIN, medicine.anatomical_structure, CHRONIC-BRONCHITIS, Genetic Epidemiology, Medical sciences: 700::Clinical medical sciences: 750::Lung diseases: 777 [VDP], Epidemiological Methods and Statistics, Female, medicine.symptom, Transcriptome Analysis, Medisinske fag: 700::Klinisk medisinske fag: 750::Lungesykdommer: 777 [VDP], Research Article, EXPRESSION, Adult, Chronic Obstructive Pulmonary Disease, Population, Addiction, Single-nucleotide polymorphism, Biology, Environmental and Occupational Lung Diseases, OBSTRUCTIVE PULMONARY-DISEASE, Polymorphism, Single Nucleotide, Environmental Epidemiology, SATB1, SDG 3 - Good Health and Well-being, medicine, Genome-Wide Association Studies, Genetics, SNP, COPD, Humans, education, Lifecourse Epidemiology, Aged, lcsh:R, Biology and Life Sciences, Computational Biology, Correction, Matrix Attachment Region Binding Proteins, Genome Analysis, Pulmonary Disease, Chronic Obstructive/genetics, Medisinske fag: 700::Basale medisinske, odontologiske og veterinærmedisinske fag: 710::Medisinsk genetikk: 714 [VDP], Mucus, Genetic epidemiology, Immunology, Respiratory Infections, Chronic Disease, RISK-FACTORS, Sputum, lcsh:Q, Genome Expression Analysis, Genome-Wide Association Study

Abstract

Background: Chronic mucus hypersecretion (CMH) is associated with an increased frequency of respiratory infections, excess lung function decline, and increased hospitalisation and mortality rates in the general population. It is associated with smoking, but it is unknown why only a minority of smokers develops CMH. A plausible explanation for this phenomenon is a predisposing genetic constitution. Therefore, we performed a genome wide association (GWA) study of CMH in Caucasian populations. Methods: GWA analysis was performed in the NELSON-study using the Illumina 610 array, followed by replication and metaanalysis in 11 additional cohorts. In total 2,704 subjects with, and 7,624 subjects without CMH were included, all current or former heavy smokers (>= 20 pack-years). Additional studies were performed to test the functional relevance of the most significant single nucleotide polymorphism (SNP). Results: A strong association with CMH, consistent across all cohorts, was observed with rs6577641 (p = 4.25610(-6), OR = 1.17), located in intron 9 of the special AT-rich sequence-binding protein 1 locus (SATB1) on chromosome 3. The risk allele (G) was associated with higher mRNA expression of SATB1 (4.3610 29) in lung tissue. Presence of CMH was associated with increased SATB1 mRNA expression in bronchial biopsies from COPD patients. SATB1 expression was induced during differentiation of primary human bronchial epithelial cells in culture. Conclusions: Our findings, that SNP rs6577641 is associated with CMH in multiple cohorts and is a cis-eQTL for SATB1, together with our additional observation that SATB1 expression increases during epithelial differentiation provide suggestive evidence that SATB1 is a gene that affects CMH. Background: Chronic mucus hypersecretion (CMH) is associated with an increased frequency of respiratory infections, excess lung function decline, and increased hospitalisation and mortality rates in the general population. It is associated with smoking, but it is unknown why only a minority of smokers develops CMH. A plausible explanation for this phenomenon is a predisposing genetic constitution. Therefore, we performed a genome wide association (GWA) study of CMH in Caucasian populations. Methods: GWA analysis was performed in the NELSON-study using the Illumina 610 array, followed by replication and meta-analysis in 11 additional cohorts. In total 2,704 subjects with, and 7,624 subjects without CMH were included, all current or former heavy smokers (≥20 pack-years). Additional studies were performed to test the functional relevance of the most significant single nucleotide polymorphism (SNP). Results: A strong association with CMH, consistent across all cohorts, was observed with rs6577641 (p = 4.25x10 -6, OR = 1.17), located in intron 9 of the special AT-rich sequence-binding protein 1 locus (SATB1) on chromosome 3. The risk allele (G) was associated with higher mRNA expression of SATB1 (4.3x10 -9) in lung tissue. Presence of CMH was associated with increased SATB1 mRNA expression in bronchial biopsies from COPD patients. SATB1 expression was induced during differentiation of primary human bronchial epithelial cells in culture. Conclusions: Our findings, that SNP rs6577641 is associated with CMH in multiple cohorts and is a cis-eQTL for SATB1, together with our additional observation that SATB1 expression increases during epithelial differentiation provide suggestive evidence that SATB1 is a gene that affects CMH.

Published

2013

17. Genetic Analysis in A Dutch Study Sample Identifies More Ulcerative Colitis Susceptibility Loci and Shows Their Additive Role in Disease Risk (vol 105, pg 395, 2010)

Author

Festen, EAM, Stokkers, PCF, van Diemen, CC, van Bodegraven, AA, Boezen, HM, Crusius, BJA, Hommes, DW, van der Woude, C.J., Balschun, T, Verspaget, HW, Schreiber, S, de Jong, DJ, Franke, A, Dijkstra, G, Wijmenga, C, Weersma, RK, and Gastroenterology & Hepatology

Published

2010

18. Improving coeliac disease risk prediction by testing non-HLA variants additional to HLA variants

Author

Romanos, J, Rosén, A, Kumar, V, Trynka, G, Franke, L, Szperl, A, Gutierrez Achury, J, van Diemen, C, Kanninga, R, Jankipersadsing, S, Steck, A, Eisenbarth, G, van Heel, D, Cukrowska, B, Bruno, V, Mazzilli, M, Núñez, C, Bilbao, J, Mearin, M, Barisani, D, Rewers, M, Norris, J, Ivarsson, A, Boezen, H, Liu, E, Wijmenga, C, van Diemen, CC, Jankipersadsing, SA, van Heel, DA, Mazzilli, MC, Bilbao, JR, Mearin, ML, Norris, JM, Boezen, HM, Wijmenga, C., BARISANI, DONATELLA, Romanos, J, Rosén, A, Kumar, V, Trynka, G, Franke, L, Szperl, A, Gutierrez Achury, J, van Diemen, C, Kanninga, R, Jankipersadsing, S, Steck, A, Eisenbarth, G, van Heel, D, Cukrowska, B, Bruno, V, Mazzilli, M, Núñez, C, Bilbao, J, Mearin, M, Barisani, D, Rewers, M, Norris, J, Ivarsson, A, Boezen, H, Liu, E, Wijmenga, C, van Diemen, CC, Jankipersadsing, SA, van Heel, DA, Mazzilli, MC, Bilbao, JR, Mearin, ML, Norris, JM, Boezen, HM, Wijmenga, C., and BARISANI, DONATELLA

Abstract

BACKGROUND: The majority of coeliac disease (CD) patients are not being properly diagnosed and therefore remain untreated, leading to a greater risk of developing CD-associated complications. The major genetic risk heterodimer, HLA-DQ2 and DQ8, is already used clinically to help exclude disease. However, approximately 40% of the population carry these alleles and the majority never develop CD. OBJECTIVE: We explored whether CD risk prediction can be improved by adding non-HLA-susceptible variants to common HLA testing. DESIGN: We developed an average weighted genetic risk score with 10, 26 and 57 single nucleotide polymorphisms (SNP) in 2675 cases and 2815 controls and assessed the improvement in risk prediction provided by the non-HLA SNP. Moreover, we assessed the transferability of the genetic risk model with 26 non-HLA variants to a nested case-control population (n=1709) and a prospective cohort (n=1245) and then tested how well this model predicted CD outcome for 985 independent individuals. RESULTS: Adding 57 non-HLA variants to HLA testing showed a statistically significant improvement compared to scores from models based on HLA only, HLA plus 10 SNP and HLA plus 26 SNP. With 57 non-HLA variants, the area under the receiver operator characteristic curve reached 0.854 compared to 0.823 for HLA only, and 11.1% of individuals were reclassified to a more accurate risk group. We show that the risk model with HLA plus 26 SNP is useful in independent populations. CONCLUSIONS: Predicting risk with 57 additional non-HLA variants improved the identification of potential CD patients. This demonstrates a possible role for combined HLA and non-HLA genetic testing in diagnostic work for CD.

Published

2014

19. Susceptibility to Chronic Mucus Hypersecretion, a Genome Wide Association Study

Author

Dijkstra, AE, Smolonska, J, van den Berge, M (Maarten), Wijmenga, C, Zanen, P, Luinge, MA, Platteel, M, Lammers, JW, Dahlback, M, Tosh, K, Hiemstra, PS, Sterk, PJ, Spira, A, Vestbo, J, Nordestgaard, BG, Benn, M, Nielsen, SF, Dahl, M, Verschuren, WM, Picavet, HSJ, Smit, HA, Owsijewitsch, M, Kauczor, HU, de Koning, Harry, Nizankowska-Mogilnicka, E, Mejza, F, Nastalek, P, van Diemen, CC, Cho, MH, Silverman, EK, Crapo, JD, Beaty, TH, Lomas, DA, Bakke, P, Gulsvik, A, Bosse, Y, Obeidat, MA, Loth, Daan, Lahousse, Lies, Rivadeneira, Fernando, Uitterlinden, André, Hofman, Bert, Stricker, Bruno, Brusselle, Guy, Duijn, Cornelia, Brouwer, U, Koppelman, GH, Vonk, JM, Nawijn, MC, Groen, HJM, Timens, W, Boezen, HM, Postma, DS, Dijkstra, AE, Smolonska, J, van den Berge, M (Maarten), Wijmenga, C, Zanen, P, Luinge, MA, Platteel, M, Lammers, JW, Dahlback, M, Tosh, K, Hiemstra, PS, Sterk, PJ, Spira, A, Vestbo, J, Nordestgaard, BG, Benn, M, Nielsen, SF, Dahl, M, Verschuren, WM, Picavet, HSJ, Smit, HA, Owsijewitsch, M, Kauczor, HU, de Koning, Harry, Nizankowska-Mogilnicka, E, Mejza, F, Nastalek, P, van Diemen, CC, Cho, MH, Silverman, EK, Crapo, JD, Beaty, TH, Lomas, DA, Bakke, P, Gulsvik, A, Bosse, Y, Obeidat, MA, Loth, Daan, Lahousse, Lies, Rivadeneira, Fernando, Uitterlinden, André, Hofman, Bert, Stricker, Bruno, Brusselle, Guy, Duijn, Cornelia, Brouwer, U, Koppelman, GH, Vonk, JM, Nawijn, MC, Groen, HJM, Timens, W, Boezen, HM, and Postma, DS

Abstract

Background: Chronic mucus hypersecretion (CMH) is associated with an increased frequency of respiratory infections, excess lung function decline, and increased hospitalisation and mortality rates in the general population. It is associated with smoking, but it is unknown why only a minority of smokers develops CMH. A plausible explanation for this phenomenon is a predisposing genetic constitution. Therefore, we performed a genome wide association (GWA) study of CMH in Caucasian populations. Methods: GWA analysis was performed in the NELSON-study using the Illumina 610 array, followed by replication and metaanalysis in 11 additional cohorts. In total 2,704 subjects with, and 7,624 subjects without CMH were included, all current or former heavy smokers (>= 20 pack-years). Additional studies were performed to test the functional relevance of the most significant single nucleotide polymorphism (SNP). Results: A strong association with CMH, consistent across all cohorts, was observed with rs6577641 (p = 4.25610(-6), OR = 1.17), located in intron 9 of the special AT-rich sequence-binding protein 1 locus (SATB1) on chromosome 3. The risk allele (G) was associated with higher mRNA expression of SATB1 (4.3610 29) in lung tissue. Presence of CMH was associated with increased SATB1 mRNA expression in bronchial biopsies from COPD patients. SATB1 expression was induced during differentiation of primary human bronchial epithelial cells in culture. Conclusions: Our findings, that SNP rs6577641 is associated with CMH in multiple cohorts and is a cis-eQTL for SATB1, together with our additional observation that SATB1 expression increases during epithelial differentiation provide suggestive evidence that SATB1 is a gene that affects CMH.

Published

2014

20. Restricted IgA repertoire in both B-1 and B-2 cell-derived gut plasmablasts

Author

Stoel, M, Jiang, HQ, van Diemen, CC, Bun, JCAM, Dammers, PM, Thurnheer, MC, Kroese, FGM, Cebra, JJ, Bos, NA, Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI), and Translational Immunology Groningen (TRIGR)

Subjects

SECRETING CELLS, B-CELL, COMMENSAL BACTERIA, INTESTINAL IGA, MUCOSAL IMMUNE-SYSTEM, VIRUS-INFECTION, V-H GENES, T-CELL, DEFICIENT MICE, IN-VIVO

Abstract

Mucosal IgA is the most abundantly produced Ig upon colonization of the intestinal tract with commensal organisms in the majority of mammals. The repertoire of these IgA molecules is still largely unknown; a large amount of the mucosal IgA cannot be shown to react with the inducing microorganisms. Analysis of the repertoire of used H chain Ig (V-H) genes by H-CDR3 spectrotyping, cloning, and sequencing of V-H genes from murine intestinal IgA-producing plasma cells reveals a very restricted usage of V-H genes and multiple clonally related sequences. The restricted usage of V-H genes is a very consistent observation, and is observed for IgA plasma cells derived from B-1 or conventional B-2 cells from different mouse strains. Clonal patterns from all analyzed V-H gene sequences show mainly independently acquired somatic mutations in contrast to the clonal evolution patterns often observed as a consequence of affinity maturation in germinal center reactions in peripheral lymphoid organs and Peyer's patches. Our data: suggest a model of clonal expansion in which many mucosal IgA-producing B cells develop in the absence of affinity maturation. The affinity of most produced IgA might not be the most critical factor for its possible function to control the commensal organisms, but simply the abundance of large amounts of IgA that can bind with relatively unselected affinity to redundant epitopes on such,organisms.

Published

2005

21. OR7-002 – Pyrin 577 mutations in dominant autoinflammation

Author

Stoffels, M, primary, Szperl, A, additional, Simon, A, additional, Netea, MG, additional, Plantinga, TS, additional, van Deuren, M, additional, Kamphuis, S, additional, Lachmann, H, additional, Cuppen, E, additional, Kloosterman, WP, additional, Frenkel, J, additional, van Diemen, CC, additional, Wijmenga, C, additional, van Gijn, M, additional, and van der Meer, JW, additional

Published

2013

22. Dense genotyping identifies and localizes multiple common and rare variant association signals in celiac disease

Author

Trynka, G, Hunt, K, Bockett, N, Romanos, J, Mistry, V, Szperl, A, Bakker, S, Bardella, M, Bhaw Rosun, L, Castillejo, G, De la Concha, E, De Almeida, R, Dias, K, Van Diemen, C, Dubois, P, Duerr, R, Edkins, S, Franke, L, Fransen, K, Gutierrez, J, Heap, G, Hrdlickova, B, Hunt, S, Izurieta, L, Izzo, V, Joosten, L, Langford, C, Mazzilli, M, Mein, C, Midah, V, Mitrovic, M, Mora, B, Morelli, M, Nutland, S, Núñez, C, Onengut Gumuscu, S, Pearce, K, Platteel, M, Polanco, I, Potter, S, Ribes Koninckx, C, Ricaño Ponce, I, Rich, S, Rybak, A, Santiago, J, Senapati, S, Sood, A, Szajewska, H, Troncone, R, Varadé, J, Wallace, C, Wolters, V, Zhernakova, A, Spanish Consortium on the Genetics of Coeliac, D, PreventCD Study, G, Wellcome Trust Case Control, C, Thelma, B, Cukrowska, B, Urcelay, E, Bilbao, J, Mearin, M, Barisani, D, Barrett, J, Plagnol, V, Deloukas, P, Wijmenga, C, Van Heel, D, Hunt, KA, Bockett, NA, Bakker, SF, Bardella, MT, De la Concha, EG, De Almeida, RC, Dias, KR, Van Diemen, CC, Dubois, PC, Duerr, RH, Heap, GA, Izurieta, LP, Joosten, LA, Mazzilli, MC, Mein, CA, Rich, SS, Santiago, JL, Wolters, VM, Spanish Consortium on the Genetics of Coeliac Disease, PreventCD Study Group, Wellcome Trust Case Control Consortium, Thelma, BK, Bilbao, JR, Mearin, ML, Barrett, JC, Van Heel,DA, BARISANI, DONATELLA, Trynka, G, Hunt, K, Bockett, N, Romanos, J, Mistry, V, Szperl, A, Bakker, S, Bardella, M, Bhaw Rosun, L, Castillejo, G, De la Concha, E, De Almeida, R, Dias, K, Van Diemen, C, Dubois, P, Duerr, R, Edkins, S, Franke, L, Fransen, K, Gutierrez, J, Heap, G, Hrdlickova, B, Hunt, S, Izurieta, L, Izzo, V, Joosten, L, Langford, C, Mazzilli, M, Mein, C, Midah, V, Mitrovic, M, Mora, B, Morelli, M, Nutland, S, Núñez, C, Onengut Gumuscu, S, Pearce, K, Platteel, M, Polanco, I, Potter, S, Ribes Koninckx, C, Ricaño Ponce, I, Rich, S, Rybak, A, Santiago, J, Senapati, S, Sood, A, Szajewska, H, Troncone, R, Varadé, J, Wallace, C, Wolters, V, Zhernakova, A, Spanish Consortium on the Genetics of Coeliac, D, PreventCD Study, G, Wellcome Trust Case Control, C, Thelma, B, Cukrowska, B, Urcelay, E, Bilbao, J, Mearin, M, Barisani, D, Barrett, J, Plagnol, V, Deloukas, P, Wijmenga, C, Van Heel, D, Hunt, KA, Bockett, NA, Bakker, SF, Bardella, MT, De la Concha, EG, De Almeida, RC, Dias, KR, Van Diemen, CC, Dubois, PC, Duerr, RH, Heap, GA, Izurieta, LP, Joosten, LA, Mazzilli, MC, Mein, CA, Rich, SS, Santiago, JL, Wolters, VM, Spanish Consortium on the Genetics of Coeliac Disease, PreventCD Study Group, Wellcome Trust Case Control Consortium, Thelma, BK, Bilbao, JR, Mearin, ML, Barrett, JC, Van Heel,DA, and BARISANI, DONATELLA

Abstract

Using variants from the 1000 Genomes Project pilot European CEU dataset and data from additional resequencing studies, we densely genotyped 183 non-HLA risk loci previously associated with immune-mediated diseases in 12,041 individuals with celiac disease (cases) and 12,228 controls. We identified 13 new celiac disease risk loci reaching genome-wide significance, bringing the number of known loci (including the HLA locus) to 40. We found multiple independent association signals at over one-third of these loci, a finding that is attributable to a combination of common, low-frequency and rare genetic variants. Compared to previously available data such as those from HapMap3, our dense genotyping in a large sample collection provided a higher resolution of the pattern of linkage disequilibrium and suggested localization of many signals to finer scale regions. In particular, 29 of the 54 fine-mapped signals seemed to be localized to single genes and, in some instances, to gene regulatory elements. Altogether, we define the complex genetic architecture of the risk regions of and refine the risk signals for celiac disease, providing the next step toward uncovering the causal mechanisms of the disease. © 2011 Nature America, Inc. All rights reserved.

Published

2011

23. Analysis of HLA and Non-HLA Alleles Can Identify Individuals at High Risk for Celiac Disease

Author

Romanos, J, van Diemen, C, Nolte, I, Trynka, G, Zhernakova, A, Fu, J, Bardella, M, Barisani, D, Mcmanus, R, van Heel, D, Wijmenga, C, van Diemen, CC, Nolte, IM, Bardella, MT, McManus, R, van Heel, DA, Wijmenga, C., BARISANI, DONATELLA, Romanos, J, van Diemen, C, Nolte, I, Trynka, G, Zhernakova, A, Fu, J, Bardella, M, Barisani, D, Mcmanus, R, van Heel, D, Wijmenga, C, van Diemen, CC, Nolte, IM, Bardella, MT, McManus, R, van Heel, DA, Wijmenga, C., and BARISANI, DONATELLA

Abstract

BACKGROUND & AIMS: Celiac disease (CD) is a common chronic disorder of the small intestine, resulting from aberrant cellular responses to gluten peptides, and often remains undiagnosed. It is a complex genetic disorder, although 95% of the patients carry the risk heterodimer human leukocyte antigen (HLA)-DQ2. Genome-wide association studies on CD have identified 9 non-HLA loci that also contribute to CD risk, most of which are shared with other immune-related diseases. Our aim is to predict the genetic risk for CD using HLA and non-HLA risk alleles. METHODS: We selected 10 independent polymorphisms in 2,308 cases and 4,585 controls from Dutch, UK, and Irish populations and categorized the individuals into 3 risk groups, based on their HLA-DQ2 genotype. We used the summed number of non-HLA risk alleles per individual to analyze their cumulative effect on CD risk, adjusting for gender and population group in logistic regression analysis. We validated our findings in 436 Italian cases and 532 controls. RESULTS: CD cases carried more non-HLA risk alleles than controls: individuals carrying > or = 13 risk alleles had a higher CD risk (odds ratio, 6.2; 95% confidence interval, 4.1-9.3) compared with those carrying 0-5 risk alleles. Combining HLA and non-HLA risk genotypes in one model increases sensitivity by 6.2% compared with using only HLA for identification of high-risk individuals with slight decrease in specificity. CONCLUSIONS: We can use non-HLA risk factors for CD to improve identification of high-risk individuals. Our risk model is a first step toward better diagnosis and prognosis in high-risk families and population-based screening.

Published

2009

24. Genetic variation in TIMP1 but not MMPs predict excess FEV1 decline in two general population-based cohorts

Author

van Diemen, CC, primary, Postma, DS, additional, Siedlinski, M, additional, Blokstra, A, additional, Smit, HA, additional, and Boezen, HM, additional

Published

2011

25. Identification of PCDH1 as a novel susceptibility gene for bronchial hyperresponsiveness.

Author

Koppelman GH, Meyers DA, Howard TD, Zheng SL, Hawkins GA, Ampleford EJ, Xu J, Koning H, Bruinenberg M, Nolte IM, van Diemen CC, Boezen HM, Timens W, Whittaker PA, Stine OC, Barton SJ, Holloway JW, Holgate ST, Graves PE, and Martinez FD

Abstract

Rationale: Asthma is a chronic inflammatory airway disease that affects more than 300 million individuals worldwide. Asthma is caused by interaction of genetic and environmental factors. Bronchial hyperresponsiveness (BHR) is a hallmark of asthma and results from increased sensitivity of the airways to physical or chemical stimulants. BHR and asthma are linked to chromosome 5q31-q33.Objectives: To identify a gene for BHR on chromosome 5q31-q33.Methods: In 200 Dutch families with asthma, linkage analysis and fine mapping were performed, and the Protocadherin 1 gene (PCDH1) was identified. PCDH1 was resequenced in 96 subjects from ethnically diverse populations to identify novel sequence variants. Subsequent replication studies were undertaken in seven populations from The Netherlands, the United Kingdom, and the United States, including two general population samples, two family samples, and three case-control samples. PCDH1 mRNA and protein expression was investigated using polymerase chain reaction, Western blotting, and immunohistochemistry.Measurements and Main Results: In seven out of eight populations (n = 6,168) from The Netherlands, United Kingdom, and United States, PCHD1 gene variants were significantly associated with BHR (P values, 0.005-0.05) This association was present in both families with asthma and general populations. PCDH1 mRNA and protein were expressed in airway epithelial cells and in macrophages.Conclusions: PCDH1 is a novel gene for BHR in adults and children. The identification of PCDH1 as a BHR susceptibility gene may suggest that a structural defect in the integrity of the airway epithelium, the first line of defense against inhaled substances, contributes to the development of BHR. [ABSTRACT FROM AUTHOR]

Published

2009

26. Improving coeliac disease risk prediction by testing non-HLA variants additional to HLA variants

Author

Romanos, J., Rosén, A., Kumar, V., Trynka, G., Franke, L., Szperl, A., Gutierrez-Achury, J., van Diemen, C.C., Kanninga, R., Jankipersadsing, S.A., Steck, A., Eisenbarth, G., van Heel, D.A., Cukrowska, B., Bruno, V., Mazzilli, M.C., Núñez, C., Bilbao, J.R., Mearin, M.L., Barisani, D., Rewers, M., Norris, J.M., Ivarsson, A., Boezen. H.M., Liu, E., Wijmenga, C., Prevent, C.D., Kolaček, Sanja, Steck, A, Mearin, M, L, Barisani, D, Rewers, M, Boezen, H.M., Romanos, J, Rosen, A, Kumar, V, Trynka, G, Franke, L, Szperl, A, Gutierrez Achury, J, Van Diemen, Cc, Kanninga, R, Jankipersadsing, Sa, Steck, A, Eisenbarth, G, van Heel, Da, Cukrowska, B, Bruno, V, Mazzilli, Mc, Nunez, C, Bilbao, Jr, Mearin, Ml, Barisani, D, Rewers, M, Norris, Jm, Ivarsson, A, Boezen, Hm, Liu, E, Wijmenga, C, Auricchio, Renata, Prevent CD, G. r. o. u. p., Rosén, A, van Diemen, C, Jankipersadsing, S, van Heel, D, Mazzilli, M, Núñez, C, Bilbao, J, Mearin, M, Norris, J, Boezen, H, Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI), Life Course Epidemiology (LCE), Groningen Research Institute for Asthma and COPD (GRIAC), and Stem Cell Aging Leukemia and Lymphoma (SALL)

Subjects

Male, INCREASING PREVALENCE, ACCURACY, AUTOIMMUNITY, Genome-wide association study, Human chromosome abnormalities -- Diagnosis, Celiac disease, Elméleti orvostudományok, Prospective Studies, MULTIPLE COMMON, education.field_of_study, medicine.diagnostic_test, Gastroenterology, Orvostudományok, 3. Good health, Hla, Female, Risk assessment, Genetic Markers, Population, Single-nucleotide polymorphism, Human leukocyte antigen, GENETIC RISK, Coeliac Disease, Polymorphism, Single Nucleotide, Risk Assessment, Decision Support Techniques, Molecular Genetics, Molecular Genetic, HLA-DQ Antigens, medicine, Genetics, LINKAGE, SNP, Humans, Genetic Predisposition to Disease, Genetic Testing, GENOME-WIDE ASSOCIATION, education, Genetic testing, Proportional Hazards Models, Models, Genetic, business.industry, Case-control study, BIO/13 - BIOLOGIA APPLICATA, ALLELES, Celiac Disease, Logistic Models, ROC Curve, Case-Control Studies, Immunology, business

Abstract

Background The majority of coeliac disease (CD) patients are not being properly diagnosed and therefore remain untreated, leading to a greater risk of developing CD-associated complications. The major genetic risk heterodimer, HLA-DQ2 and DQ8, is already used clinically to help exclude disease. However, approximately 40% of the population carry these alleles and the majority never develop CD. Objective We explored whether CD risk prediction can be improved by adding non-HLA-susceptible variants to common HLA testing. Design We developed an average weighted genetic risk score with 10, 26 and 57 single nucleotide polymorphisms (SNP) in 2675 cases and 2815 controls and assessed the improvement in risk prediction provided by the non-HLA SNP. Moreover, we assessed the transferability of the genetic risk model with 26 non-HLA variants to a nested case–control population (n=1709) and a prospective cohort (n=1245) and then tested how well this model predicted CD outcome for 985 independent individuals. Results Adding 57 non-HLA variants to HLA testing showed a statistically significant improvement compared to scores from models based on HLA only, HLA plus 10 SNP and HLA plus 26 SNP. With 57 non-HLA variants, the area under the receiver operator characteristic curve reached 0.854 compared to 0.823 for HLA only, and 11.1% of individuals were reclassified to a more accurate risk group. We show that the risk model with HLA plus 26 SNP is useful in independent populations. Conclusions Predicting risk with 57 additional non-HLA variants improved the identification of potential CD patients. This demonstrates a possible role for combined HLA and non-HLA genetic testing in diagnostic work for CD., peer-reviewed

Published

2013

27. Cas9-directed long-read sequencing to resolve optical genome mapping findings in leukemia diagnostics.

Author

de Boer EN, Vroom V, Scheper AJ, Johansson LF, Bosscher L, Rietema N, Commandeur-Jan SZ, Knoers NVAM, Sikkema-Raddatz B, van den Berg E, and van Diemen CC

Subjects

Humans, Reproducibility of Results, Karyotyping, Chromosome Mapping, CRISPR-Cas Systems, Leukemia

Abstract

Leukemias are genetically heterogeneous and diagnostics therefore includes various standard-of-care (SOC) techniques, including karyotyping, SNP-array and FISH. Optical genome mapping (OGM) may replace these as it detects different types of structural aberrations simultaneously and additionally detects much smaller aberrations (500 bp vs 5-10 Mb with karyotyping). However, its resolution may still be too low to define clinical relevance of aberrations when they are located between two OGM labels or when labels are not distinct enough. Here, we test the potential of Cas9-directed long-read sequencing (LRS) as an additional technique to resolve such potentially relevant new findings. From an internal Bionano implementation study we selected ten OGM calls that could not be validated with SOC methods. Per variant we designed crRNAs for Cas9 enrichment, prepared libraries and sequenced them on a MinION/GridION device. We could confirm all aberrations and, importantly, the actual breakpoints of the OGM calls were located between 0.2 and 5.5 kb of the OGM-estimated breakpoints, confirming the high reliability of OGM. Furthermore, we show examples of redefinition of aberrations between labels that enable judgment of clinical relevance. Our results suggest that Cas9-directed LRS can be a relevant and flexible secondary technique in diagnostic workflows including OGM., (© 2024. The Author(s).)

Published

2024

28. Copy Number Variant Analysis of Spinocerebellar Ataxia Genes in a Cohort of Dutch Patients With Cerebellar Ataxia.

Author

Ghorbani F, de Boer EN, Benjamins-Stok M, Verschuuren-Bemelmans CC, Knapper J, de Boer-Bergsma J, de Vries JJ, Sikkema-Raddatz B, Verbeek DS, Westers H, and van Diemen CC

Abstract

Background and Objectives: The spinocerebellar ataxias (SCAs) are a genetically heterogeneous group of neurodegenerative disorders generally caused by single nucleotide variants (SNVs) or indels in coding regions or by repeat expansions in coding and noncoding regions of SCA genes. Copy number variants (CNVs) have now also been reported for 3 genes- ITPR1 , FGF14 , and SPTBN2 -but not all SCA genes have been screened for CNVs as the underlying cause of the disease in patients. In this study, we aim to assess the prevalence of CNVs encompassing 36 known SCA genes., Methods: A cohort of patients with cerebellar ataxia who were referred to the University Medical Center Groningen for SCA genetic diagnostics was selected for this study. Genome-wide single nucleotide polymorphism (SNP) genotyping was performed using the Infinium Global Screening Array. Following data processing, genotyping data were uploaded into NxClinical software to perform CNV analysis per patient and to visualize identified CNVs in 36 genes with allocated SCA symbols. The clinical relevance of detected CNVs was determined using evidence from studies based on PubMed literature searches for similar CNVs and phenotypic features., Results: Of the 338 patients with cerebellar ataxia, we identified putative clinically relevant CNV deletions in 3 patients: an identical deletion encompassing ITPR1 in 2 patients, who turned out to be related, and a deletion involving PPP2R2B in another patient. Although the CNV deletion in ITPR1 was clearly the underlying cause of SCA15 in the 2 related patients, the clinical significance of the deletion in PPP2R2B remained unknown., Discussion: We showed that CNVs detectable with the limited resolution of SNP array are a very rare cause of SCA. Nevertheless, we suggest adding CNV analysis alongside SNV analysis to SCA gene diagnostics using next-generation sequencing approaches, at least for ITPR1 , to improve the genetic diagnostics for patients., Competing Interests: The authors report no disclosures relevant to the manuscript. Go to Neurology.org/NG for full disclosures., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2023

29. Prevalence of intronic repeat expansions in RFC1 in Dutch patients with CANVAS and adult-onset ataxia.

Author

Ghorbani F, de Boer-Bergsma J, Verschuuren-Bemelmans CC, Pennings M, de Boer EN, Kremer B, Vanhoutte EK, de Vries JJ, van de Berg R, Kamsteeg EJ, van Diemen CC, Westers H, van de Warrenburg BP, and Verbeek DS

Subjects

Adult, Ataxia, Humans, Prevalence, Retrospective Studies, Cerebellar Ataxia genetics, Peripheral Nervous System Diseases

Abstract

Recently, an intronic biallelic (AAGGG) n repeat expansion in RFC1 was shown to be a cause of CANVAS and adult-onset ataxia in multiple populations. As the prevalence of the RFC1 repeat expansion in Dutch cases was unknown, we retrospectively tested 9 putative CANVAS cases and two independent cohorts (A and B) of 395 and 222 adult-onset ataxia cases, respectively, using the previously published protocol and, for the first time optical genome mapping to determine the size of the expanded RFC1 repeat. We identified the biallelic (AAGGG) n repeat expansion in 5/9 (55%) putative CANVAS patients and in 10/617 (1.6%; cohorts A + B) adult-onset ataxia patients. In addition to the AAGGG repeat motif, we observed a putative GAAGG repeat motif in the repeat expansion with unknown significance in two adult-onset ataxia patients. All the expanded (AAGGG) n repeats identified were in the range of 800-1299 repeat units. The intronic biallelic RFC1 repeat expansion thus explains a number of the Dutch adult-onset ataxia cases that display the main clinical features of CANVAS, and particularly when ataxia is combined with neuropathy. The yield of screening for RFC1 expansions in unselected cohorts is relatively low. To increase the current diagnostic yield in ataxia patients, we suggest adding RFC1 screening to the genetic diagnostic workflow by using advanced techniques that attain long fragments., (© 2022. The Author(s).)

Published

2022

30. Feasibility of Follow-Up Studies and Reclassification in Spinocerebellar Ataxia Gene Variants of Unknown Significance.

Author

Ghorbani F, Alimohamed MZ, Vilacha JF, Van Dijk KK, De Boer-Bergsma J, Fokkens MR, Lemmink H, Sijmons RH, Sikkema-Raddatz B, Groves MR, Verschuuren-Bemelmans CC, Verbeek DS, Van Diemen CC, and Westers H

Abstract

Spinocerebellar ataxia (SCA) is a heterogeneous group of neurodegenerative disorders with autosomal dominant inheritance. Genetic testing for SCA leads to diagnosis, prognosis and risk assessment for patients and their family members. While advances in sequencing and computing technologies have provided researchers with a rapid expansion in the genetic test content that can be used to unravel the genetic causes that underlie diseases, the large number of variants with unknown significance (VUSes) detected represent challenges. To minimize the proportion of VUSes, follow-up studies are needed to aid in their reclassification as either (likely) pathogenic or (likely) benign variants. In this study, we addressed the challenge of prioritizing VUSes for follow-up using (a combination of) variant segregation studies, 3D protein modeling, in vitro splicing assays and functional assays. Of the 39 VUSes prioritized for further analysis, 13 were eligible for follow up. We were able to reclassify 4 of these VUSes to LP, increasing the molecular diagnostic yield by 1.1%. Reclassification of VUSes remains difficult due to limited possibilities for performing variant segregation studies in the classification process and the limited availability of routine functional tests., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ghorbani, Alimohamed, Vilacha, Van Dijk, De Boer-Bergsma, Fokkens, Lemmink, Sijmons, Sikkema-Raddatz, Groves, Verschuuren-Bemelmans, Verbeek, Van Diemen and Westers.)

Published

2022

31. Strategies in Rapid Genetic Diagnostics of Critically Ill Children: Experiences From a Dutch University Hospital.

Author

Imafidon ME, Sikkema-Raddatz B, Abbott KM, Meems-Veldhuis MT, Swertz MA, van der Velde KJ, Beunders G, Bos DK, Knoers NVAM, Kerstjens-Frederikse WS, and van Diemen CC

Abstract

Background: Genetic disorders are a substantial cause of infant morbidity and mortality and are frequently suspected in neonatal intensive care units. Non-specific clinical presentation or limitations to physical examination can result in a plethora of genetic testing techniques, without clear strategies on test ordering. Here, we review our 2-years experiences of rapid genetic testing of NICU patients in order to provide such recommendations. Methods: We retrospectively included all patients admitted to the NICU who received clinical genetic consultation and genetic testing in our University hospital. We documented reasons for referral for genetic consultation, presenting phenotypes, differential diagnoses, genetic testing requested and their outcomes, as well as the consequences of each (rapid) genetic diagnostic approach. We calculated diagnostic yield and turnaround times (TATs). Results: Of 171 included infants that received genetic consultation 140 underwent genetic testing. As a result of testing as first tier, 13/14 patients received a genetic diagnosis from QF-PCR; 14/115 from SNP-array; 12/89 from NGS testing, of whom 4/46 were diagnosed with a small gene panel and 8/43 with a large OMIM-morbid based gene panel. Subsequent secondary or tertiary analysis and/or additional testing resulted in five more diagnoses. TATs ranged from 1 day (QF-PCR) to a median of 14 for NGS and SNP-array testing, with increasing TAT in particular when many consecutive tests were performed. Incidental findings were detected in 5/140 tested patients (3.6%). Conclusion: We recommend implementing a broad NGS gene panel in combination with CNV calling as the first tier of genetic testing for NICU patients given the often unspecific phenotypes of ill infants and the high yield of this large panel., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Imafidon, Sikkema-Raddatz, Abbott, Meems-Veldhuis, Swertz, van der Velde, Beunders, Bos, Knoers, Kerstjens-Frederikse and van Diemen.)

Published

2021

32. Exome sequencing in patient-parent trios suggests new candidate genes for early-onset primary sclerosing cholangitis.

Author

Haisma SM, Weersma RK, Joosse ME, de Koning BAE, de Meij T, Koot BGP, Wolters V, Norbruis O, Daly MJ, Stevens C, Xavier RJ, Koskela J, Rivas MA, Visschedijk MC, Verkade HJ, Barbieri R, Jansen DBH, Festen EAM, van Rheenen PF, and van Diemen CC

Subjects

Exome, Humans, Parents, Exome Sequencing, Cholangitis, Sclerosing genetics, Inflammatory Bowel Diseases genetics

Abstract

Background & Aims: Primary sclerosing cholangitis (PSC) is a rare bile duct disease strongly associated with inflammatory bowel disease (IBD). Whole-exome sequencing (WES) has contributed to understanding the molecular basis of very early-onset IBD, but rare protein-altering genetic variants have not been identified for early-onset PSC. We performed WES in patients diagnosed with PSC ≤ 12 years to investigate the contribution of rare genetic variants to early-onset PSC., Methods: In this multicentre study, WES was performed on 87 DNA samples from 29 patient-parent trios with early-onset PSC. We selected rare (minor allele frequency < 2%) coding and splice-site variants that matched recessive (homozygous and compound heterozygous variants) and dominant (de novo) inheritance in the index patients. Variant pathogenicity was predicted by an in-house developed algorithm (GAVIN), and PSC-relevant variants were selected using gene expression data and gene function., Results: In 22 of 29 trios we identified at least 1 possibly pathogenic variant. We prioritized 36 genes, harbouring a total of 54 variants with predicted pathogenic effects. In 18 genes, we identified 36 compound heterozygous variants, whereas in the other 18 genes we identified 18 de novo variants. Twelve of 36 candidate risk genes are known to play a role in transmembrane transport, adaptive and innate immunity, and epithelial barrier function., Conclusions: The 36 candidate genes for early-onset PSC need further verification in other patient cohorts and evaluation of gene function before a causal role can be attributed to its variants., (© 2021 The Authors. Liver International published by John Wiley & Sons Ltd.)

Published

2021

33. Targeted RNA-Sequencing Enables Detection of Relevant Translocations and Single Nucleotide Variants and Provides a Method for Classification of Hematological Malignancies-RANKING.

Author

de Lange K, de Boer EN, Bosga A, Alimohamed MZ, Johansson LF, Mulder AB, Vellenga E, van Diemen CC, Deelen P, van den Berg E, and Sikkema-Raddatz B

Subjects

Humans, Nucleotides, Proto-Oncogene Proteins c-bcl-2 genetics, RNA, Translocation, Genetic, Hematologic Neoplasms genetics, Leukemia, Myeloid, Acute genetics

Abstract

Background: Patients with hematological malignancies (HMs) carry a wide range of chromosomal and molecular abnormalities that impact their prognosis and treatment. Since no current technique can detect all relevant abnormalities, technique(s) are chosen depending on the reason for referral, and abnormalities can be missed. We tested targeted transcriptome sequencing as a single platform to detect all relevant abnormalities and compared it to current techniques., Material and Methods: We performed RNA-sequencing of 1385 genes (TruSight RNA Pan-Cancer, Illumina) in bone marrow from 136 patients with a primary diagnosis of HM. We then applied machine learning to expression profile data to perform leukemia classification, a method we named RANKING. Gene fusions for all the genes in the panel were detected, and overexpression of the genes EVI1, CCND1, and BCL2 was quantified. Single nucleotide variants/indels were analyzed in acute myeloid leukemia (AML), myelodysplastic syndrome and patients with acute lymphoblastic leukemia (ALL) using a virtual myeloid (54 genes) or lymphoid panel (72 genes)., Results: RANKING correctly predicted the leukemia classification of all AML and ALL samples and improved classification in 3 patients. Compared to current methods, only one variant was missed, c.2447A>T in KIT (RT-PCR at 10-4), and BCL2 overexpression was not seen due to a t(14; 18)(q32; q21) in 2% of the cells. Our RNA-sequencing method also identified 6 additional fusion genes and overexpression of CCND1 due to a t(11; 14)(q13; q32) in 2 samples., Conclusions: Our combination of targeted RNA-sequencing and data analysis workflow can improve the detection of relevant variants, and expression patterns can assist in establishing HM classification., (© American Association for Clinical Chemistry 2020. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2020

34. A prospective study on rapid exome sequencing as a diagnostic test for multiple congenital anomalies on fetal ultrasound.

Author

Corsten-Janssen N, Bouman K, Diphoorn JCD, Scheper AJ, Kinds R, El Mecky J, Breet H, Verheij JBGM, Suijkerbuijk R, Duin LK, Manten GTR, van Langen IM, Sijmons RH, Sikkema-Raddatz B, Westers H, and van Diemen CC

Subjects

Abnormalities, Multiple epidemiology, Abnormalities, Multiple genetics, Adult, Diagnostic Tests, Routine statistics & numerical data, Feasibility Studies, Female, Fetus diagnostic imaging, Genetic Testing methods, Genetic Testing statistics & numerical data, Humans, Infant, Newborn, Male, Netherlands epidemiology, Polymerase Chain Reaction methods, Polymorphism, Single Nucleotide, Predictive Value of Tests, Pregnancy, Pregnancy Outcome epidemiology, Prenatal Diagnosis statistics & numerical data, Prospective Studies, Ultrasonography, Prenatal, Abnormalities, Multiple diagnosis, Prenatal Diagnosis methods, Exome Sequencing

Abstract

Objective: Conventional genetic tests (quantitative fluorescent-PCR [QF-PCR] and single nucleotide polymorphism-array) only diagnose ~40% of fetuses showing ultrasound abnormalities. Rapid exome sequencing (rES) may improve this diagnostic yield, but includes challenges such as uncertainties in fetal phenotyping, variant interpretation, incidental unsolicited findings, and rapid turnaround times. In this study, we implemented rES in prenatal care to increase diagnostic yield., Methods: We prospectively studied 55 fetuses. Inclusion criteria were: (a) two or more independent major fetal anomalies, (b) hydrops fetalis or bilateral renal cysts alone, or (c) one major fetal anomaly and a first-degree relative with the same anomaly. In addition to conventional genetic tests, we performed trio rES analysis using a custom virtual gene panel of ~3850 Online Mendelian Inheritance in Man (OMIM) genes., Results: We established a genetic rES-based diagnosis in 8 out of 23 fetuses (35%) without QF-PCR or array abnormalities. Diagnoses included MIRAGE (SAMD9), Zellweger (PEX1), Walker-Warburg (POMGNT1), Noonan (PTNP11), Kabuki (KMT2D), and CHARGE (CHD7) syndrome and two cases of Osteogenesis Imperfecta type 2 (COL1A1). In six cases, rES diagnosis aided perinatal management. The median turnaround time was 14 (range 8-20) days., Conclusion: Implementing rES as a routine test in the prenatal setting is challenging but technically feasible, with a promising diagnostic yield and significant clinical relevance., (© 2020 The Authors. Prenatal Diagnosis published by John Wiley & Sons Ltd.)

Published

2020

35. A homozygous variant in growth and differentiation factor 2 (GDF2) may cause lymphatic dysplasia with hydrothorax and nonimmune hydrops fetalis.

Author

Aukema SM, Ten Brinke GA, Timens W, Vos YJ, Accord RE, Kraft KE, Santing MJ, Morssink LP, Streefland E, van Diemen CC, Vrijlandt EJ, Hulzebos CV, and Kerstjens-Frederikse WS

Subjects

Craniofacial Abnormalities diagnosis, Craniofacial Abnormalities pathology, Female, Homozygote, Humans, Hydrops Fetalis diagnosis, Hydrops Fetalis pathology, Infant, Newborn, Lymphangiectasis, Intestinal diagnosis, Lymphangiectasis, Intestinal pathology, Lymphedema diagnosis, Lymphedema pathology, Polyhydramnios diagnosis, Polyhydramnios pathology, Pregnancy, Thoracentesis, Ultrasonography, Prenatal, Exome Sequencing, Craniofacial Abnormalities genetics, Growth Differentiation Factor 2 genetics, Hydrops Fetalis genetics, Lymphangiectasis, Intestinal genetics, Lymphedema genetics, Polyhydramnios genetics

Abstract

The etiology of nonimmune hydrops fetalis is extensive and includes genetic disorders. We describe a term-born female neonate with late onset extensive nonimmune hydrops, that is, polyhydramnios, edema, and congenital bilateral chylothorax. This newborn was successfully treated with repetitive thoracocentesis, total parenteral feeding, octreotide intravenously and finally surgical pleurodesis and corticosteroids. A genetic cause seemed plausible as the maternal history revealed a fatal nonimmune hydrops fetalis. A homozygous truncating variant in GDF2 (c.451C>T, p.(Arg151*)) was detected with exome sequencing. Genetic analysis of tissue obtained from the deceased fetal sibling revealed the same homozygous variant. The parents and two healthy siblings were heterozygous for the GDF2 variant. Skin and lung biopsies in the index patient, as well as the revised lung biopsy of the deceased fetal sibling, showed lymphatic dysplasia and lymphangiectasia. To the best of our knowledge, this is the first report of an association between a homozygous variant in GDF2 with lymphatic dysplasia, hydrothorax and nonimmune hydrops fetalis., (© 2020 Wiley Periodicals LLC.)

Published

2020

36. CAPICE: a computational method for Consequence-Agnostic Pathogenicity Interpretation of Clinical Exome variations.

Author

Li S, van der Velde KJ, de Ridder D, van Dijk ADJ, Soudis D, Zwerwer LR, Deelen P, Hendriksen D, Charbon B, van Gijn ME, Abbott K, Sikkema-Raddatz B, van Diemen CC, Kerstjens-Frederikse WS, Sinke RJ, and Swertz MA

Subjects

Gene Frequency, Genetic Association Studies methods, Humans, INDEL Mutation, Machine Learning, Molecular Diagnostic Techniques, Molecular Sequence Annotation, Polymorphism, Single Nucleotide, ROC Curve, Reproducibility of Results, Computational Biology methods, Exome, Genetic Variation, Software

Abstract

Exome sequencing is now mainstream in clinical practice. However, identification of pathogenic Mendelian variants remains time-consuming, in part, because the limited accuracy of current computational prediction methods requires manual classification by experts. Here we introduce CAPICE, a new machine-learning-based method for prioritizing pathogenic variants, including SNVs and short InDels. CAPICE outperforms the best general (CADD, GAVIN) and consequence-type-specific (REVEL, ClinPred) computational prediction methods, for both rare and ultra-rare variants. CAPICE is easily added to diagnostic pipelines as pre-computed score file or command-line software, or using online MOLGENIS web service with API. Download CAPICE for free and open-source (LGPLv3) at https://github.com/molgenis/capice .

Published

2020

37. A pipeline-friendly software tool for genome diagnostics to prioritize genes by matching patient symptoms to literature.

Author

van der Velde KJ, van den Hoek S, van Dijk F, Hendriksen D, van Diemen CC, Johansson LF, Abbott KM, Deelen P, Sikkema-Raddatz B, and Swertz MA

Abstract

Despite an explosive growth of next-generation sequencing data, genome diagnostics only provides a molecular diagnosis to a minority of patients. Software tools that prioritize genes based on patient symptoms using known gene-disease associations may complement variant filtering and interpretation to increase chances of success. However, many of these tools cannot be used in practice because they are embedded within variant prioritization algorithms, or exist as remote services that cannot be relied upon or are unacceptable because of legal/ethical barriers. In addition, many tools are not designed for command-line usage, closed-source, abandoned, or unavailable. We present Variant Interpretation using Biomedical literature Evidence (VIBE), a tool to prioritize disease genes based on Human Phenotype Ontology codes. VIBE is a locally installed executable that ensures operational availability and is built upon DisGeNET-RDF, a comprehensive knowledge platform containing gene-disease associations mostly from literature and variant-disease associations mostly from curated source databases. VIBE's command-line interface and output are designed for easy incorporation into bioinformatic pipelines that annotate and prioritize variants for further clinical interpretation. We evaluate VIBE in a benchmark based on 305 patient cases alongside seven other tools. Our results demonstrate that VIBE offers consistent performance with few cases missed, but we also find high complementarity among all tested tools. VIBE is a powerful, free, open source and locally installable solution for prioritizing genes based on patient symptoms. Project source code, documentation, benchmark and executables are available at https://github.com/molgenis/vibe., Competing Interests: The authors declare that they have no competing interests., (© 2020 The Authors. Advanced Genetics published by Wiley Periodicals LLC.)

Published

2020

38. Detection of Fusion Genes to Determine Minimal Residual Disease in Leukemia Using Next-Generation Sequencing.

Author

de Boer EN, Johansson LF, de Lange K, Bosga-Brouwer AG, van den Berg E, Sikkema-Raddatz B, and van Diemen CC

Subjects

Humans, Limit of Detection, Neoplasm, Residual, RNA genetics, High-Throughput Nucleotide Sequencing methods, Leukemia diagnosis, Oncogene Proteins, Fusion genetics, RNA analysis

Abstract

Background: Measuring minimal residual disease (MRD), the persistence of leukemic cells after treatment, is important for monitoring leukemia recurrence. The current methods for monitoring MRD are flow cytometry, to assess aberrant immune phenotypes, and digital droplet PCR (ddPCR), to target genetic aberrations such as single-nucleotide variants and gene fusions. We present the performance of an RNA-based next-generation sequencing (NGS) method for MRD gene fusion detection compared with ddPCR. This method may have advantages, including the capacity to analyze different genetic aberrations and patients in 1 experiment. In particular, detection at the RNA level may be highly sensitive if the genetic aberration is highly expressed., Methods: We designed a probe-based NGS panel targeting the breakpoints of 11 fusion genes previously identified in clinical patients and 2 fusion genes present in cell lines. Blocking probes were added to prevent nonspecific enrichment. Each patient RNA sample was diluted in background RNA, depleted for rRNA and globin mRNA, converted to cDNA, and prepared for sequencing. Unique sequence reads, identified by unique molecular identifiers, were aligned directly to reference transcripts. The same patient and cell-line samples were also analyzed with ddPCR for direct comparison., Results: Our NGS method reached a maximum sensitivity of 1 aberrant cell in 10 000 cells and was mostly within a factor of 10 compared with ddPCR., Conclusions: Our detection limit was below the threshold of 1:1000 recommended by European Leukemia Net. Further optimizations are easy to implement and are expected to boost the sensitivity of our method to diagnostically obtained ddPCR thresholds., (© American Association for Clinical Chemistry 2020.)

Published

2020

39. A cross-omics integrative study of metabolic signatures of chronic obstructive pulmonary disease.

Author

Prokić I, Lahousse L, de Vries M, Liu J, Kalaoja M, Vonk JM, van der Plaat DA, van Diemen CC, van der Spek A, Zhernakova A, Fu J, Ghanbari M, Ala-Korpela M, Kettunen J, Havulinna AS, Perola M, Salomaa V, Lind L, Ärnlöv J, Stricker BHC, Brusselle GG, Boezen HM, van Duijn CM, and Amin N

Subjects

Aged, Aged, 80 and over, Biomarkers blood, Cohort Studies, Female, Glycoproteins chemistry, Humans, Logistic Models, Lung metabolism, Male, Mendelian Randomization Analysis, Middle Aged, Netherlands epidemiology, Prognosis, Pulmonary Disease, Chronic Obstructive mortality, Risk Factors, Survival Rate, Glycoproteins blood, Metabolomics methods, Pulmonary Disease, Chronic Obstructive blood, Pulmonary Disease, Chronic Obstructive metabolism

Abstract

Background: Chronic obstructive pulmonary disease (COPD) is a common lung disorder characterized by persistent and progressive airflow limitation as well as systemic changes. Metabolic changes in blood may help detect COPD in an earlier stage and predict prognosis., Methods: We conducted a comprehensive study of circulating metabolites, measured by proton Nuclear Magnetic Resonance Spectroscopy, in relation with COPD and lung function. The discovery sample consisted of 5557 individuals from two large population-based studies in the Netherlands, the Rotterdam Study and the Erasmus Rucphen Family study. Significant findings were replicated in 12,205 individuals from the Lifelines-DEEP study, FINRISK and the Prospective Investigation of the Vasculature in Uppsala Seniors (PIVUS) studies. For replicated metabolites further investigation of causality was performed, utilizing genetics in the Mendelian randomization approach., Results: There were 602 cases of COPD and 4955 controls used in the discovery meta-analysis. Our logistic regression results showed that higher levels of plasma Glycoprotein acetyls (GlycA) are significantly associated with COPD (OR = 1.16, P = 5.6 × 10 - 4 in the discovery and OR = 1.30, P = 1.8 × 10 - 6 in the replication sample). A bi-directional two-sample Mendelian randomization analysis suggested that circulating blood GlycA is not causally related to COPD, but that COPD causally increases GlycA levels. Using the prospective data of the same sample of Rotterdam Study in Cox-regression, we show that the circulating GlycA level is a predictive biomarker of COPD incidence (HR = 1.99, 95%CI 1.52-2.60, comparing those in the highest and lowest quartile of GlycA) but is not significantly associated with mortality in COPD patients (HR = 1.07, 95%CI 0.94-1.20)., Conclusions: Our study shows that circulating blood GlycA is a biomarker of early COPD pathology.

Published

2020

40. Novel Rare Genetic Variants Associated with Airflow Obstruction in the General Population.

Author

de Vries M, van der Plaat DA, Nedeljkovic I, van der Velde KJ, Amin N, van Duijn CM, Vonk JM, Boezen HM, and van Diemen CC

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Airway Obstruction genetics, Airway Obstruction physiopathology, Genetic Predisposition to Disease, Genetic Variation, Pulmonary Disease, Chronic Obstructive genetics, Pulmonary Disease, Chronic Obstructive physiopathology

Published

2020

41. A next-generation sequencing method for gene doping detection that distinguishes low levels of plasmid DNA against a background of genomic DNA.

Author

de Boer EN, van der Wouden PE, Johansson LF, van Diemen CC, and Haisma HJ

Subjects

Erythropoietin genetics, Erythropoietin metabolism, Exons, Genetic Testing standards, Genome, Human, High-Throughput Nucleotide Sequencing standards, Humans, Intercellular Signaling Peptides and Proteins genetics, Intercellular Signaling Peptides and Proteins metabolism, Plasmids metabolism, Reproducibility of Results, Sensitivity and Specificity, Sequence Analysis, DNA standards, Doping in Sports methods, Genetic Testing methods, High-Throughput Nucleotide Sequencing methods, Plasmids genetics, Sequence Analysis, DNA methods, Transgenes

Abstract

Gene doping confers health risks for athletes and is a threat to fair competition in sports. Therefore the anti-doping community has given attention on its detection. Previously published polymerase chain reaction-based methodologies for gene doping detection are targeting exon-exon junctions in the intron-less transgene. However, because these junctions are known, it would be relatively easy to evade detection by tampering with the copyDNA sequences. We have developed a targeted next-generation sequencing based assay for the detection of all exon-exon junctions of the potential doping genes, EPO, IGF1, IGF2, GH1, and GH2, which is resistant to tampering. Using this assay, all exon-exon junctions of copyDNA of doping genes could be detected with a sensitivity of 1296 copyDNA copies in 1000 ng of genomic DNA. In addition, promotor regions and plasmid-derived sequences are readily detectable in our sequence data. While we show the reliability of our method for a selection of genes, expanding the panel to detect other genes would be straightforward. As we were able to detect plasmid-derived sequences, we expect that genes with manipulated junctions, promotor regions, and plasmid or virus-derived sequences will also be readily detected.

Published

2019

42. Occupational exposure to gases/fumes and mineral dust affect DNA methylation levels of genes regulating expression.

Author

van der Plaat DA, Vonk JM, Terzikhan N, de Jong K, de Vries M, La Bastide-van Gemert S, van Diemen CC, Lahousse L, Brusselle GG, Nedeljkovic I, Amin N, Kromhout H, Vermeulen RCH, Postma DS, van Duijn CM, and Boezen HM

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Blood, Female, Genome-Wide Association Study, Humans, Leukocytes, Male, Middle Aged, Sequence Analysis, RNA, Young Adult, DNA Methylation, Dust, Gases adverse effects, Gene Expression Regulation, Occupational Exposure adverse effects

Abstract

Many workers are daily exposed to occupational agents like gases/fumes, mineral dust or biological dust, which could induce adverse health effects. Epigenetic mechanisms, such as DNA methylation, have been suggested to play a role. We therefore aimed to identify differentially methylated regions (DMRs) upon occupational exposures in never-smokers and investigated if these DMRs associated with gene expression levels. To determine the effects of occupational exposures independent of smoking, 903 never-smokers of the LifeLines cohort study were included. We performed three genome-wide methylation analyses (Illumina 450 K), one per occupational exposure being gases/fumes, mineral dust and biological dust, using robust linear regression adjusted for appropriate confounders. DMRs were identified using comb-p in Python. Results were validated in the Rotterdam Study (233 never-smokers) and methylation-expression associations were assessed using Biobank-based Integrative Omics Study data (n = 2802). Of the total 21 significant DMRs, 14 DMRs were associated with gases/fumes and 7 with mineral dust. Three of these DMRs were associated with both exposures (RPLP1 and LINC02169 (2×)) and 11 DMRs were located within transcript start sites of gene expression regulating genes. We replicated two DMRs with gases/fumes (VTRNA2-1 and GNAS) and one with mineral dust (CCDC144NL). In addition, nine gases/fumes DMRs and six mineral dust DMRs significantly associated with gene expression levels. Our data suggest that occupational exposures may induce differential methylation of gene expression regulating genes and thereby may induce adverse health effects. Given the millions of workers that are exposed daily to occupational exposures, further studies on this epigenetic mechanism and health outcomes are warranted., (© The Author(s) 2019. Published by Oxford University Press.)

Published

2019

43. Improving the diagnostic yield of exome- sequencing by predicting gene-phenotype associations using large-scale gene expression analysis.

Author

Deelen P, van Dam S, Herkert JC, Karjalainen JM, Brugge H, Abbott KM, van Diemen CC, van der Zwaag PA, Gerkes EH, Zonneveld-Huijssoon E, Boer-Bergsma JJ, Folkertsma P, Gillett T, van der Velde KJ, Kanninga R, van den Akker PC, Jan SZ, Hoorntje ET, Te Rijdt WP, Vos YJ, Jongbloed JDH, van Ravenswaaij-Arts CMA, Sinke R, Sikkema-Raddatz B, Kerstjens-Frederikse WS, Swertz MA, and Franke L

Subjects

Databases, Nucleic Acid, Humans, Models, Genetic, Principal Component Analysis, Software, User-Computer Interface, Gene Expression Regulation physiology, Genetic Predisposition to Disease, Sequence Analysis, RNA methods, Transcriptome

Abstract

The diagnostic yield of exome and genome sequencing remains low (8-70%), due to incomplete knowledge on the genes that cause disease. To improve this, we use RNA-seq data from 31,499 samples to predict which genes cause specific disease phenotypes, and develop GeneNetwork Assisted Diagnostic Optimization (GADO). We show that this unbiased method, which does not rely upon specific knowledge on individual genes, is effective in both identifying previously unknown disease gene associations, and flagging genes that have previously been incorrectly implicated in disease. GADO can be run on www.genenetwork.nl by supplying HPO-terms and a list of genes that contain candidate variants. Finally, applying GADO to a cohort of 61 patients for whom exome-sequencing analysis had not resulted in a genetic diagnosis, yields likely causative genes for ten cases.

Published

2019

44. Limited overlap in significant hits between genome-wide association studies on two airflow obstruction definitions in the same population.

Author

van der Plaat DA, Vonk JM, Lahousse L, de Jong K, Faiz A, Nedeljkovic I, Amin N, van Diemen CC, Brusselle GG, Bossé Y, Brandsma CA, Hao K, Paré PD, van Duijn CM, Postma DS, and Boezen HM

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Cohort Studies, Female, Forced Expiratory Volume, Genes, Overlapping genetics, Genetic Predisposition to Disease, Humans, Linear Models, Logistic Models, Lung physiopathology, Male, Middle Aged, Polymorphism, Single Nucleotide, Quantitative Trait Loci genetics, Smoking adverse effects, Spirometry, Vital Capacity, Young Adult, CCAAT-Binding Factor genetics, Fatty Acid-Binding Protein 7 genetics, Genome-Wide Association Study, Pulmonary Disease, Chronic Obstructive genetics, Smoking genetics, Tumor Suppressor Proteins genetics

Abstract

Background: Airflow obstruction is a hallmark of chronic obstructive pulmonary disease (COPD), and is defined as either the ratio between forced expiratory volume in one second and forced vital capacity (FEV 1 /FVC) < 70% or < lower limit of normal (LLN). This study aimed to assess the overlap between genome-wide association studies (GWAS) on airflow obstruction using these two definitions in the same population stratified by smoking., Methods: GWASes were performed in the LifeLines Cohort Study for both airflow obstruction definitions in never-smokers (NS = 5071) and ever-smokers (ES = 4855). The FEV 1 /FVC < 70% models were adjusted for sex, age, and height; FEV 1 /FVC < LLN models were not adjusted. Ever-smokers models were additionally adjusted for pack-years and current-smoking. The overlap in significantly associated SNPs between the two definitions and never/ever-smokers was assessed using several p-value thresholds. To quantify the agreement, the Pearson correlation coefficient was calculated between the p-values and ORs. Replication was performed in the Vlagtwedde-Vlaardingen study (NS = 432, ES = 823). The overlapping SNPs with p < 10 - 4 were validated in the Vlagtwedde-Vlaardingen and Rotterdam Study cohorts (NS = 1966, ES = 3134) and analysed for expression quantitative trait loci (eQTL) in lung tissue (n = 1087)., Results: In the LifeLines cohort, 96% and 93% of the never- and ever-smokers were classified concordantly based on the two definitions. 26 and 29% of the investigated SNPs were overlapping at p < 0.05 in never- and ever-smokers, respectively. At p < 10 - 4 the overlap was 4% and 6% respectively, which could be change findings as shown by simulation studies. The effect estimates of the SNPs of the two definitions correlated strongly, but the p-values showed more variation and correlated only moderately. Similar observations were made in the Vlagtwedde-Vlaardingen study. Two overlapping SNPs in never-smokers (NFYC and FABP7) had the same direction of effect in the validation cohorts and the NFYC SNP was an eQTL for NFYC-AS1. NFYC is a transcription factor that binds to several known COPD genes, and FABP7 may be involved in abnormal pulmonary development., Conclusions: The definition of airflow obstruction and the population under study may be important determinants of which SNPs are associated with airflow obstruction. The genes FABP7 and NFYC(-AS1) could play a role in airflow obstruction in never-smokers specifically.

Published

2019

45. From blood to lung tissue: effect of cigarette smoke on DNA methylation and lung function.

Author

de Vries M, van der Plaat DA, Nedeljkovic I, Verkaik-Schakel RN, Kooistra W, Amin N, van Duijn CM, Brandsma CA, van Diemen CC, Vonk JM, and Marike Boezen H

Subjects

Adult, Aged, Cigarette Smoking adverse effects, CpG Islands physiology, Female, Humans, Lung pathology, Male, Middle Aged, Young Adult, Cigarette Smoking blood, Cigarette Smoking genetics, DNA Methylation physiology, Genome-Wide Association Study methods, Lung physiology, Smokers

Abstract

Background: Genetic and environmental factors play a role in the development of COPD. The epigenome, and more specifically DNA methylation, is recognized as important link between these factors. We postulate that DNA methylation is one of the routes by which cigarette smoke influences the development of COPD. In this study, we aim to identify CpG-sites that are associated with cigarette smoke exposure and lung function levels in whole blood and validate these CpG-sites in lung tissue., Methods: The association between pack years and DNA methylation was studied genome-wide in 658 current smokers with >5 pack years using robust linear regression analysis. Using mediation analysis, we subsequently selected the CpG-sites that were also associated with lung function levels. Significant CpG-sites were validated in lung tissue with pyrosequencing and expression quantitative trait methylation (eQTM) analysis was performed to investigate the association between DNA methylation and gene expression., Results: 15 CpG-sites were significantly associated with pack years and 10 of these were additionally associated with lung function levels. We validated 5 CpG-sites in lung tissue and found several associations between DNA methylation and gene expression., Conclusion: This study is the first to validate a panel of CpG-sites that are associated with cigarette smoking and lung function levels in whole blood in the tissue of interest: lung tissue.

Published

2018

46. Occupational exposure to pesticides is associated with differential DNA methylation.

Author

van der Plaat DA, de Jong K, de Vries M, van Diemen CC, Nedeljković I, Amin N, Kromhout H, Vermeulen R, Postma DS, van Duijn CM, Boezen HM, and Vonk JM

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Case-Control Studies, Epigenesis, Genetic, Female, Gene Expression, Genome-Wide Association Study, Humans, Male, Middle Aged, Netherlands, Young Adult, CpG Islands, DNA Methylation, Occupational Exposure adverse effects, Pesticides toxicity

Abstract

Objectives: Occupational pesticide exposure is associated with a wide range of diseases, including lung diseases, but it is largely unknown how pesticides influence airway disease pathogenesis. A potential mechanism might be through epigenetic mechanisms, like DNA methylation. Therefore, we assessed associations between occupational exposure to pesticides and genome-wide DNA methylation sites., Methods: 1561 subjects of LifeLines were included with either no (n=1392), low (n=108) or high (n=61) exposure to any type of pesticides (estimated based on current or last held job). Blood DNA methylation levels were measured using Illumina 450K arrays. Associations between pesticide exposure and 420 938 methylation sites (CpGs) were assessed using robust linear regression adjusted for appropriate confounders. In addition, we performed genome-wide stratified and interaction analyses by gender, smoking and airway obstruction status, and assessed associations between gene expression and methylation for genome-wide significant CpGs (n=2802)., Results: In total for all analyses, high pesticide exposure was genome-wide significantly (false discovery rate P<0.05) associated with differential DNA methylation of 31 CpGs annotated to 29 genes. Twenty of these CpGs were found in subjects with airway obstruction. Several of the identified genes, for example, RYR1 , ALLC , PTPRN2 , LRRC3B , PAX2 and VTRNA2-1 , are genes previously linked to either pesticide exposure or lung-related diseases. Seven out of 31 CpGs were associated with gene expression levels., Conclusions: We show for the first time that occupational exposure to pesticides is genome-wide associated with differential DNA methylation. Further research should reveal whether this differential methylation plays a role in the airway disease pathogenesis induced by pesticides., Competing Interests: Competing interests: DSP reports: The University of Groningen has received money for Professor Postma regarding a grant for research from Astra Zeneca, Chiesi, Genentec, GSK and Roche. Fees for consultancies were given to the University of Groningen by Astra Zeneca, Boehringer Ingelheim, Chiesi, GSK, Takeda and TEVA. All other authors declare they have no actual or potential competing financial interest., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2018. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2018

47. DNA methylation in childhood asthma: an epigenome-wide meta-analysis.

Author

Xu CJ, Söderhäll C, Bustamante M, Baïz N, Gruzieva O, Gehring U, Mason D, Chatzi L, Basterrechea M, Llop S, Torrent M, Forastiere F, Fantini MP, Carlsen KCL, Haahtela T, Morin A, Kerkhof M, Merid SK, van Rijkom B, Jankipersadsing SA, Bonder MJ, Ballereau S, Vermeulen CJ, Aguirre-Gamboa R, de Jongste JC, Smit HA, Kumar A, Pershagen G, Guerra S, Garcia-Aymerich J, Greco D, Reinius L, McEachan RRC, Azad R, Hovland V, Mowinckel P, Alenius H, Fyhrquist N, Lemonnier N, Pellet J, Auffray C, van der Vlies P, van Diemen CC, Li Y, Wijmenga C, Netea MG, Moffatt MF, Cookson WOCM, Anto JM, Bousquet J, Laatikainen T, Laprise C, Carlsen KH, Gori D, Porta D, Iñiguez C, Bilbao JR, Kogevinas M, Wright J, Brunekreef B, Kere J, Nawijn MC, Annesi-Maesano I, Sunyer J, Melén E, and Koppelman GH

Subjects

Asthma blood, Child, Child, Preschool, DNA blood, Female, Genome-Wide Association Study, Humans, Male, T-Lymphocytes, Cytotoxic, Asthma genetics, CpG Islands, DNA Methylation, Eosinophils immunology, Epigenesis, Genetic

Abstract

Background: DNA methylation profiles associated with childhood asthma might provide novel insights into disease pathogenesis. We did an epigenome-wide association study to assess methylation profiles associated with childhood asthma., Methods: We did a large-scale epigenome-wide association study (EWAS) within the Mechanisms of the Development of ALLergy (MeDALL) project. We examined epigenome-wide methylation using Illumina Infinium Human Methylation450 BeadChips (450K) in whole blood in 207 children with asthma and 610 controls at age 4-5 years, and 185 children with asthma and 546 controls at age 8 years using a cross-sectional case-control design. After identification of differentially methylated CpG sites in the discovery analysis, we did a validation study in children (4-16 years; 247 cases and 2949 controls) from six additional European cohorts and meta-analysed the results. We next investigated whether replicated CpG sites in cord blood predict later asthma in 1316 children. We subsequently investigated cell-type-specific methylation of the identified CpG sites in eosinophils and respiratory epithelial cells and their related gene-expression signatures. We studied cell-type specificity of the asthma association of the replicated CpG sites in 455 respiratory epithelial cell samples, collected by nasal brushing of 16-year-old children as well as in DNA isolated from blood eosinophils (16 with asthma, eight controls [age 2-56 years]) and compared this with whole-blood DNA samples of 74 individuals with asthma and 93 controls (age 1-79 years). Whole-blood transcriptional profiles associated with replicated CpG sites were annotated using RNA-seq data of subsets of peripheral blood mononuclear cells sorted by fluorescence-activated cell sorting., Findings: 27 methylated CpG sites were identified in the discovery analysis. 14 of these CpG sites were replicated and passed genome-wide significance (p<1·14 × 10 -7 ) after meta-analysis. Consistently lower methylation levels were observed at all associated loci across childhood from age 4 to 16 years in participants with asthma, but not in cord blood at birth. All 14 CpG sites were significantly associated with asthma in the second replication study using whole-blood DNA, and were strongly associated with asthma in purified eosinophils. Whole-blood transcriptional signatures associated with these CpG sites indicated increased activation of eosinophils, effector and memory CD8 T cells and natural killer cells, and reduced number of naive T cells. Five of the 14 CpG sites were associated with asthma in respiratory epithelial cells, indicating cross-tissue epigenetic effects., Interpretation: Reduced whole-blood DNA methylation at 14 CpG sites acquired after birth was strongly associated with childhood asthma. These CpG sites and their associated transcriptional profiles indicate activation of eosinophils and cytotoxic T cells in childhood asthma. Our findings merit further investigations of the role of epigenetics in a clinical context., Funding: EU and the Seventh Framework Programme (the MeDALL project)., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

48. Understanding the role of the chromosome 15q25.1 in COPD through epigenetics and transcriptomics.

Author

Nedeljkovic I, Carnero-Montoro E, Lahousse L, van der Plaat DA, de Jong K, Vonk JM, van Diemen CC, Faiz A, van den Berge M, Obeidat M, Bossé Y, Nickle DC, Consortium B, Uitterlinden AG, van Meurs JJB, Stricker BCH, Brusselle GG, Postma DS, Boezen HM, van Duijn CM, and Amin N

Subjects

Aged, Chromosomes, Human, Pair 15 genetics, Cigarette Smoking adverse effects, Cigarette Smoking genetics, Female, Gene Expression Regulation, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Male, Middle Aged, Pulmonary Disease, Chronic Obstructive epidemiology, Pulmonary Disease, Chronic Obstructive physiopathology, Quantitative Trait Loci genetics, Risk Factors, DNA Methylation genetics, Iron Regulatory Protein 2 genetics, Proteasome Endopeptidase Complex genetics, Pulmonary Disease, Chronic Obstructive genetics, Receptors, Nicotinic genetics

Abstract

Chronic obstructive pulmonary disease (COPD) is a major health burden in adults and cigarette smoking is considered the most important environmental risk factor of COPD. Chromosome 15q25.1 locus is associated with both COPD and smoking. Our study aims at understanding the mechanism underlying the association of chromosome 15q25.1 with COPD through epigenetic and transcriptional variation in a population-based setting. To assess if COPD-associated variants in 15q25.1 are methylation quantitative trait loci, epigenome-wide association analysis of four genetic variants, previously associated with COPD (P < 5 × 10 -8 ) in the 15q25.1 locus (rs12914385:C>T-CHRNA3, rs8034191:T>C-HYKK, rs13180:C>T-IREB2 and rs8042238:C>T-IREB2), was performed in the Rotterdam study (n = 1489). All four variants were significantly associated (P < 1.4 × 10 -6 ) with blood DNA methylation of IREB2, CHRNA3 and PSMA4, of which two, including IREB2 and PSMA4, were also differentially methylated in COPD cases and controls (P < 0.04). Further additive and multiplicative effects of smoking were evaluated and no significant effect was observed. To evaluate if these four genetic variants are expression quantitative trait loci, transcriptome-wide association analysis was performed in 1087 lung samples. All four variants were also significantly associated with differential expression of the IREB2 3'UTR in lung tissues (P < 5.4 × 10 -95 ). We conclude that regulatory mechanisms affecting the expression of IREB2 gene, such as DNA methylation, may explain the association between genetic variants in chromosome 15q25.1 and COPD, largely independent of smoking.

Published

2018

49. A Genome-Wide Linkage Study for Chronic Obstructive Pulmonary Disease in a Dutch Genetic Isolate Identifies Novel Rare Candidate Variants.

Author

Nedeljkovic I, Terzikhan N, Vonk JM, van der Plaat DA, Lahousse L, van Diemen CC, Hobbs BD, Qiao D, Cho MH, Brusselle GG, Postma DS, Boezen HM, van Duijn CM, and Amin N

Abstract

Chronic obstructive pulmonary disease (COPD) is a complex and heritable disease, associated with multiple genetic variants. Specific familial types of COPD may be explained by rare variants, which have not been widely studied. We aimed to discover rare genetic variants underlying COPD through a genome-wide linkage scan. Affected-only analysis was performed using the 6K Illumina Linkage IV Panel in 142 cases clustered in 27 families from a genetic isolate, the Erasmus Rucphen Family (ERF) study. Potential causal variants were identified by searching for shared rare variants in the exome-sequence data of the affected members of the families contributing most to the linkage peak. The identified rare variants were then tested for association with COPD in a large meta-analysis of several cohorts. Significant evidence for linkage was observed on chromosomes 15q14-15q25 [logarithm of the odds (LOD) score = 5.52], 11p15.4-11q14.1 (LOD = 3.71) and 5q14.3-5q33.2 (LOD = 3.49). In the chromosome 15 peak, that harbors the known COPD locus for nicotinic receptors, and in the chromosome 5 peak we could not identify shared variants. In the chromosome 11 locus, we identified four rare (minor allele frequency (MAF) <0.02), predicted pathogenic, missense variants. These were shared among the affected family members. The identified variants localize to genes including neuroblast differentiation-associated protein ( AHNAK ), previously associated with blood biomarkers in COPD, phospholipase C Beta 3 ( PLCB3 ), shown to increase airway hyper-responsiveness, solute carrier family 22-A11 ( SLC22A11 ), involved in amino acid metabolism and ion transport, and metallothionein-like protein 5 ( MTL5 ), involved in nicotinate and nicotinamide metabolism. Association of SLC22A11 and MTL5 variants were confirmed in the meta-analysis of 9,888 cases and 27,060 controls. In conclusion, we have identified novel rare variants in plausible genes related to COPD. Further studies utilizing large sample whole-genome sequencing should further confirm the associations at chromosome 11 and investigate the chromosome 15 and 5 linked regions.

Published

2018

50. Long-term Air Pollution Exposure, Genome-wide DNA Methylation and Lung Function in the LifeLines Cohort Study.

Author

de F C Lichtenfels AJ, van der Plaat DA, de Jong K, van Diemen CC, Postma DS, Nedeljkovic I, van Duijn CM, Amin N, la Bastide-van Gemert S, de Vries M, Ward-Caviness CK, Wolf K, Waldenberger M, Peters A, Stolk RP, Brunekreef B, Boezen HM, and Vonk JM

Subjects

Adult, Air Pollutants analysis, Air Pollution adverse effects, Cohort Studies, CpG Islands genetics, Environmental Exposure analysis, Female, Genome-Wide Association Study, Humans, Linear Models, Male, Middle Aged, Nitrogen Dioxide analysis, Particulate Matter analysis, Particulate Matter toxicity, Respiratory Function Tests, Time Factors, Air Pollutants toxicity, DNA Methylation genetics, Environmental Exposure adverse effects, Nitrogen Dioxide toxicity

Abstract

Background: Long-term air pollution exposure is negatively associated with lung function, yet the mechanisms underlying this association are not fully clear. Differential DNA methylation may explain this association., Objectives: Our main aim was to study the association between long-term air pollution exposure and DNA methylation., Methods: We performed a genome-wide methylation study using robust linear regression models in 1,017 subjects from the LifeLines cohort study to analyze the association between exposure to nitrogen dioxide (NO 2 ) and particulate matter (PM 2.5 , fine particulate matter with aerodynamic diameter ≤2.5 μm; PM 10 , particulate matter with aerodynamic diameter ≤10 μm) and PM 2.5absorbance , indicator of elemental carbon content (estimated with land-use-regression models) with DNA methylation in whole blood (Illumina ® HumanMethylation450K BeadChip). Replication of the top hits was attempted in two independent samples from the population-based Cooperative Health Research in the Region of Augsburg studies (KORA)., Results: Depending on the p -value threshold used, we found significant associations between NO 2 exposure and DNA methylation for seven CpG sites (Bonferroni corrected threshold p<1.19×10 -7 ) or for 4,980 CpG sites (False Discovery Rate<0.05). The top associated CpG site was annotated to the PSMB9 gene (i.e., cg04908668). None of the seven Bonferroni significant CpG-sites were significantly replicated in the two KORA-cohorts. No associations were found for PM exposure., Conclusions: Long-term NO 2 exposure was genome-wide significantly associated with DNA methylation in the identification cohort but not in the replication cohort. Future studies are needed to further elucidate the potential mechanisms underlying NO 2 -exposure-related respiratory disease. https://doi.org/10.1289/EHP2045.

Published

2018